1 15.5 KD FABP IS CYTOSOLIC. IT IS PROBABLY TAKEN UP FROM THE URINARY LUMEN BY ENDOCYTOSIS. 1 50% CYTOSOLIC, THE REMAINDER BEING ATTACHED TO THE MEMBRANES AND GRANULES. 1 A FEW PRECURSORS ARE SECRETED. THE MATURE 58 AND 60 KD SUBUNITS ARE LYSOSOMAL. 3 ACCUMULATE IN WITHIN THE VACUOLES OF SPECIALIZED CELLS KNOWN AS CRYSTAL IDIOBLASTS. 1 ACCUMULATES IN CELLS AS INCLUSION BODIES. MAY BE SECRETED BY A MECHANISM DIFFERENT FROM NORMAL EXPORT SYSTEM. 3 ACCUMULATES IN THE APOPLAST BEFORE SECRETION. 1 ACCUMULATES NEAR THE CONTRACTILE RING FROM ANAPHASE THROUGH TELOPHASE, AND FINALLY CONDENSES INTO THE MIDBODY. IN INTERPHASE AND POSTMITOTIC CELLS, LOCALISED TO FIBROUS OR GRANULAR STRUCTURES, DEPENDING ON THE GROWTH STATE OF THE CELL. 1 ACCUMULATES PREFERENTIALLY IN GROWING BUDS. 1 ACCUMULATES SPECIFICALLY IN REGULATED SECRETORY VESICLES OF PRESPORE CELLS (PRESPORE VESICLES). THE PROTEIN LATER ACCUMULATES EXTRACELLULARLY IN THE SPORE COAT. 1 ACETABULAR (PENETRATION) GLANDS. 1 ALPHA KAP IS CYTOPLASMIC (PROBABLE). 3 ALPHA-DYSTROGLYCAN IS A TYPE-I MEMBRANE PROTEIN WHILE BETA-DYSTROGLYCAN IS A EXTRACELLULAR PROTEIN. 1 AMYLOPLAST (POTENTIAL). 2 AMYLOPLAST OR CHLOROPLAST, SOLUBLE (BY SIMILARITY). 1 AMYLOPLAST OR CHLOROPLAST, SOLUBLE. 4 AMYLOPLAST. 1 ANCHORED AT THE ENDOPLASMIC RETICULUM MEMBRANE BY PHOSPHATIDYLINOSITOL VIA ETHANOLAMINE BRIDGING. 2 ANCHORED IN THE INNER MITOCHONDRIAL MEMBRANE WITH ITS N-TERMINUS PROTRUDING INTO THE MITOCHONDRIAL INTERMEMBRANE SPACE. 1 ANCHORED IN THE MEMBRANE, WITH THE C-TERMINAL PROTUDING IN THE PERIPLASM. 1 ANCHORED IN THE PHOTOSYNTHETIC MEMBRANE. 4 ANCHORED TO THE CYTOPLASMIC MEMBRANE VIA ITS N-TERMINAL SIGNAL-LIKE SEQUENCE, SPANS THE PERIPLASM (BY SIMILARITY). 2 ANCHORED TO THE ENDOPLASMIC RETICULUM (BY SIMILARITY). 1 ANCHORED TO THE ENDOPLASMIC RETICULUM. 1 ANCHORED TO THE MEMBRANE (POTENTIAL). 1 ANCHORED TO THE MEMBRANE. 1 ANCHORED TO THE PLASMA MEMBRANE. 3 ANCHORS THE PHYCOBILISOME PERPENDICULARLY TO THE STROMAL SURFACE OF THE THYLAKOID MEMBRANE. 1 APICAL PLASMA MEMBRANE OF THE GOBLET CELLS AND MALPIGHIAN TUBULE BRUSH BORDER MEMBRANE. 1 APICAL SURFACE OF DISC CELLS. 1 APOPLAST. 1 AROUND THE NUCLEAR ENVELOPE, AND IN CYTOPLASMIC MEMBRANES. 2 ASSOCIATED TO THE ENDOPLASMIC RETICULUM VIA ITS C-TERMINAL DOMAIN WITH ITS PHOSPHATASE DOMAIN ORIENTED TOWARDS THE CYTOPLASM (BY SIMILARITY). 2 ASSOCIATED TO THE ENDOPLASMIC RETICULUM VIA ITS C-TERMINAL DOMAIN WITH ITS PHOSPHATASE DOMAIN ORIENTED TOWARDS THE CYTOPLASM. 4 ASSOCIATED WITH A STRUCTURE HAVING THE CHARACTERISTICS OF AN INTERMEDIATE COMPARTMENT BETWEEN THE ENDOPLASMIC RETICULUM AND THE GOLGI APPARATUS (BY SIMILARITY). 3 ASSOCIATED WITH A STRUCTURE HAVING THE CHARACTERISTICS OF AN INTERMEDIATE COMPARTMENT BETWEEN THE ENDOPLASMIC RETICULUM AND THE GOLGI APPARATUS. 1 ASSOCIATED WITH AN INTRACELLULAR MEMBRANE. 1 ASSOCIATED WITH BOTH OF THE INNER ENVELOPE MEMBRANE AS WELL AS WITH THE THYLAKOID MEMBRANE. 1 ASSOCIATED WITH CYTOPLASMIC AND PLASMA MEMBRANES. 1 ASSOCIATED WITH CYTOPLASMIC GRANULES. 1 ASSOCIATED WITH CYTOPLASMIC MICROTUBULES AND WITH THE MITOTIC SPINDLE. 1 ASSOCIATED WITH DIFFERENT SUBCELLULAR FRACTIONS SUCH AS MITOCHONDRIAL, NUCLEAR, AND ROUGH/SMOOTH MICROSOMAL FRACTIONS (BY SIMILARITY). 2 ASSOCIATED WITH DIFFERENT SUBCELLULAR FRACTIONS SUCH AS MITOCHONDRIAL, NUCLEAR, AND ROUGH/SMOOTH MICROSOMAL FRACTIONS. 1 ASSOCIATED WITH GOLGI MEMBRANES. 1 ASSOCIATED WITH KINETOPLAST DNA IN THE MITOCHONDRION, IN THE REGION WHERE KDNA REPLICATION OCCURS. 6 ASSOCIATED WITH LUMENAL SIDE OF THE THYLAKOID MEMBRANE. 5 ASSOCIATED WITH LUMINAL SIDE OF THE THYLAKOID MEMBRANE. 2 ASSOCIATED WITH MATRIX SIDE OF THE THYLAKOID MEMBRANE. 1 ASSOCIATED WITH MEGASOME, A UNIQUE LYSOSOMAL ORGANELLE FOUND IN INTRACELLULAR AMASTIGOTES OF THE L.MEXICANA COMPLEX. 1 ASSOCIATED WITH MEMBRANES AND THE CYTOSKELETON. 1 ASSOCIATED WITH MEMBRANES OF INTRACELLULAR ORGANELLES. 1 ASSOCIATED WITH MEMBRANES OR CELLULAR ORGANELLES. 1 ASSOCIATED WITH MEMBRANES. 2 ASSOCIATED WITH MICROTUBULES. 1 ASSOCIATED WITH MITOCHONDRIA AT HEAT SHOCK TEMPERATURE, SOLUBLE AT NORMAL GROWTH TEMPERATURE (REVERSIBILITY). 2 ASSOCIATED WITH PARTICULATE FRACTIONS. 1 ASSOCIATED WITH PHOTOSYSTEM II AT THE LUMEN SIDE OF THYLAKOID MEMBRANES. 2 ASSOCIATED WITH PUNCTATE STRUCTURES IN THE PERINUCLEAR CYTOPLASM, AXONS, AND GROWTH CONES OF DEVELOPING NEURONS. SCG10 EXISTS IN BOTH SOLUBLE AND MEMBRANE-BOUND FORMS (BY SIMILARITY). 2 ASSOCIATED WITH PUNCTATE STRUCTURES IN THE PERINUCLEAR CYTOPLASM, AXONS, AND GROWTH CONES OF DEVELOPING NEURONS. SCG10 EXISTS IN BOTH SOLUBLE AND MEMBRANE-BOUND FORMS. 5 ASSOCIATED WITH STROMAL SIDE OF THE THYLAKOID MEMBRANE. 1 ASSOCIATED WITH THE CYTOPLASMIC SURFACE OF SECRETORY VESICLES AND THE PLASMA MEMBRANE (BY SIMILARITY). 1 ASSOCIATED WITH THE CYTOPLASMIC SURFACE OF SECRETORY VESICLES AND THE PLASMA MEMBRANE. A SMALL FRACTION IS SOLUBLE. 2 ASSOCIATED WITH THE CYTOPLASMIC SURFACE OF SYNAPTIC VESICLES. 1 ASSOCIATED WITH THE ECTO-SURFACE OF THE PLASMA MEMBRANE. MAY BE TRANSPORTED TO THE PLASMA MEMBRANE VIA CONTRACTILE VACUOLES AND ITS CELL SURFACE ASSOCIATION MAY BE MEDIATED BY AN INTEGRAL MEMBRANE PROTEIN. 2 ASSOCIATED WITH THE ENVELOPES OF VIRIONS PRESENT IN THE NUCLEUS OF INFECTED CELLS, WITH THE ENVELOPES OF VIRIONS IN THE PROCESS OF BEING OCCLUDED AND FULLY OCCLUDED VIRIONS. 3 ASSOCIATED WITH THE GOLGI APPARATUS (BY SIMILARITY). 3 ASSOCIATED WITH THE GOLGI APPARATUS. 4 ASSOCIATED WITH THE GOLGI COMPLEX AS A PERIPHERAL MEMBRANE PROTEIN (BY SIMILARITY). 1 ASSOCIATED WITH THE GOLGI COMPLEX AS A PERIPHERAL MEMBRANE PROTEIN (POTENTIAL). 1 ASSOCIATED WITH THE GOLGI COMPLEX AS A PERIPHERAL MEMBRANE PROTEIN. 1 ASSOCIATED WITH THE INNER FACE OF SPORE COAT. 2 ASSOCIATED WITH THE INNER FACE OF THE PLASMA MEMBRANE. 1 ASSOCIATED WITH THE LATE-GOLGI MEMBRANES. 2 ASSOCIATED WITH THE LUMENAL SURFACE OF THE HIGH ENDOTHELIAL VENULES OF PERIPHERAL LYMPH NODES. 1 ASSOCIATED WITH THE MEMBRANE AND THE CYTOSKELETON THROUGHOUT DEVELOPMENT. 1 ASSOCIATED WITH THE MEMBRANES OF "GROWTH CONES" THAT FORM THE TIPS OF ELONGATING AXONS. 2 ASSOCIATED WITH THE NUCLEAR MEMBRANE (BY SIMILARITY). 1 ASSOCIATED WITH THE NUCLEAR MEMBRANE. 1 ASSOCIATED WITH THE PARTICULATE FRACTION. PROBABLY FORMS A COMPLEX BY PROTEIN-PROTEIN INTERACTIONS VIA ITS LEUCINE-RICH SEGMENT. 2 ASSOCIATED WITH THE PERIPHERY OF OCCLUSION BODIES AND WITH THE INTERNAL MEMBRANES OF INFECTED CELLS. 1 ASSOCIATED WITH THE PERIPLASMIC SIDE OF THE CYTOPLASMIC MEMBRANE (BY SIMILARITY). 2 ASSOCIATED WITH THE PERIPLASMIC SIDE OF THE CYTOPLASMIC MEMBRANE. 5 ASSOCIATED WITH THE PLASMA AND NUCLEAR MEMBRANES, AND WITH THE INSOLUBLE NUCLEAR LAMINA (BY SIMILARITY). 1 ASSOCIATED WITH THE PLASMA AND NUCLEAR MEMBRANES, AND WITH THE INSOLUBLE NUCLEAR LAMINA (BY SIMILARITY). _ADECC STANDARD; PRT; 169 AA. 1 ASSOCIATED WITH THE PLASMA AND NUCLEAR MEMBRANES, AND WITH THE INSOLUBLE NUCLEAR LAMINA. 1 ASSOCIATED WITH THE PLASMA MEMBRANE OF UNDIFFERENTIATED, PROLIFERATING CRYPT EPITHELIAL CELLS AS WELL AS DIFFERENTIATED VILLUS ENTEROCYTES. 1 ASSOCIATED WITH THE SPONGIOMES OF CONTRACTILE VACUOLE COMPLEX. 1 ASSOCIATED WITH THE TEGUMENTAL MEMBRANE. 1 ASSOCIATED WITH THE VACUOLAR MEMBRANE. 1 ASSOCIATES SPECIFICALLY WITH THE AXONEME AND MAY BIND DIRECTLY TO POLYMERIZED MICROTUBULES. 1 ASSOCIATES WITH KINETOCHORES DURING CONGRESSION, RELOCATES TO THE SPINDLE MIDZONE AT ANAPHASE, AND IS QUANTITATIVELY DISCARDED AT THE END OF THE CELL DIVISION. 1 ASSOCIATES WITH THE 60S SUBUNIT OF RIBOSOMES. 1 ASSOCIATES WITH THE ACTIN CYTOSKELETON. 1 ASSOCIATES WITH THE MEIOTIC SPLINDLE. 1 ASSUMED TO INSERT AND OLIGOMERIZE IN MEMBRANES. 3 AT THE CYTOPLASMIC SURFACE OF THE PLASMA MEMBRANE AND ON EARLY ENDOSOMES (BY SIMILARITY). 3 AT THE CYTOPLASMIC SURFACE OF THE PLASMA MEMBRANE AND ON EARLY ENDOSOMES. 3 AT THE MEROZOITE SURFACE AND WITHIN THE PARASITOPHOROUS VACUOLE. 1 AT THE TIP AND IN OR ALONG THE SIDES OF THE K99 FIBRILLAE. 4 ATTACHED TO THE CELL WALL. 1 ATTACHED TO THE CELL-WALL. 1 ATTACHED TO THE CYTOPLASMIC SURFACE OF THE ER-NUCLEAR ENVELOPE MEMBRANES. 1 ATTACHED TO THE FLAGELLAR MEMBRANE BY A GPI-ANCHOR. 1 ATTACHED TO THE HOST MEMBRANE BY A LIPID ANCHOR (PROBABLE). 13 ATTACHED TO THE INNER MEMBRANE BY A LIPID ANCHOR (POTENTIAL). 2 ATTACHED TO THE INNER MEMBRANE BY A LIPID ANCHOR. 38 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR (BY SIMILARITY). 1 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR (IN ISOFORM III-1 CONTAINING SER-203). 4 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR (POSSIBLE). 57 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR (POTENTIAL). 1 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR (POTENTIAL). FOUND IN EXTRACELLULAR MATRIX. 4 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR (PROBABLE). 1 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR AND/OR BY CARBOHYDRATE-MEDIATED COVALENT CROSS-LINKS (POSSIBLE). 3 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR THAT CONTAINS A PHOSPHOCERAMIDE MOIETY. 1 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR THAT CONTAINS A PHOSPHOCERAMIDE MOIETY. SUCH ANCHOR MEDIATES A FAST AND LONG PERSISTENCE CELL ADHESION OF THE PROTEIN. 3 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR, SARCOPLASMIC RETICULUM. 1 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR, THEN CLEAVED TO PRODUCE A SOLUBLE FORM WHICH IS SECRETED IN PANCREATIC JUICE (BY SIMILARITY). 2 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR, THEN CLEAVED TO PRODUCE A SOLUBLE FORM WHICH IS SECRETED IN PANCREATIC JUICE. 1 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR, THEN CLEAVED TO PRODUCE A SOLUBLE FORM WHICH IS SECRETED IN URINE (BY SIMILARITY). 2 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR, THEN CLEAVED TO PRODUCE A SOLUBLE FORM WHICH IS SECRETED IN URINE. 178 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR. 26 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR. A SOLUBLE FORM IS RELASED FROM RUPTURED CELLS BY THE ACTION OF A PI-PLC. 6 ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR; BRUSH BORDER MEMBRANE. 1 ATTACHED TO THE MEMBRANE BY A LIPID ANCHOR (BY SIMILARITY). 68 ATTACHED TO THE MEMBRANE BY A LIPID ANCHOR (POTENTIAL). 110 ATTACHED TO THE MEMBRANE BY A LIPID ANCHOR (PROBABLE). 1 ATTACHED TO THE MEMBRANE BY A LIPID ANCHOR (PROBABLE). _VACCC STANDARD; PRT; 150 AA. 15 ATTACHED TO THE MEMBRANE BY A LIPID ANCHOR. 1 ATTACHED TO THE MEMBRANE BY A LIPID- ANCHOR (PROBABLE). 1 ATTACHED TO THE MEMBRANE VIA ITS N-TERMINUS. 2 ATTACHED TO THE MEMBRANES OF THE NUCLEAR ENVELOPE AND ENDOPLASMIC RETICULUM. RELEASED INTO THE NUCLEUS UPON PROTEOLYTIC CLEAVAGE (BY SIMILARITY). 2 ATTACHED TO THE MEMBRANES OF THE NUCLEAR ENVELOPE AND ENDOPLASMIC RETICULUM. RELEASED INTO THE NUCLEUS UPON PROTEOLYTIC CLEAVAGE. 2 ATTACHED TO THE NEURONAL MEMBRANE BY A GPI-ANCHOR AND IS ALSO RELEASED FROM NEURONS. 1 ATTACHED TO THE NEURONAL MEMBRANE BY A GPI-ANCHOR. 8 ATTACHED TO THE OUTER MEMBRANE BY A LIPID ANCHOR (BY SIMILARITY). 4 ATTACHED TO THE OUTER MEMBRANE BY A LIPID ANCHOR (POTENTIAL). 33 ATTACHED TO THE OUTER MEMBRANE BY A LIPID ANCHOR (PROBABLE). 1 ATTACHED TO THE OUTER MEMBRANE BY A LIPID ANCHOR AND EXPOSED TO THE PERIPLASMIC SIDE (PROBABLE). 51 ATTACHED TO THE OUTER MEMBRANE BY A LIPID ANCHOR. 1 BASAL MEMBRANE OF THE SODIUM CHLORIDE- SECRETING EPITHELIA. 1 BASEMENT MEMBRANES (MAJOR COMPONENT). 1 BASEMENT MEMBRANES IN EARLY EMBRYONIC TISSUES, AND CELL SURFACE OF NEUROECTODERMAL CELLS. 4 BASEMENT MEMBRANES. 1 BASOLATERAL MEMBRANE. 1 BASOLATERAL PLASMA MEMBRANE OF THE EPITHELIUM CELLS. 7 BINDS TO THE EXTERNAL SURFACE OF THE GAS VESICLE MEMBRANE. 1 BIPOLARLY LOCALIZED. 1 BORDER OF THE INNER PART OF THE MEMBRANE OF ENDOSPERM PROTEIN BODIES. 1 BOTH AT THE SPINDLE POLE BODY AND THE NUCLEAR PORE COMPLEX. 1 BOTH CYTOPLASMIC (25%) AND PERIPHERALLY ASSOCIATED WITH THE PLASMA MEMBRANE (75%). 1 BOTH CYTOPLASMIC (75%) AND PERIPHERALLY ASSOCIATED WITH THE PLASMA MEMBRANE (25%). 1 BOTH FORMS ARE SECRETED BUT THE LONGER FORM APPEARS TO REMAIN CELL ATTACHED UNLESS RELEASED BY HEPARIN. 1 BOTH IN THE SECRETIONS AND IN THE NUCLEUS. 1 BOUND LOOSELY TO COMPONENTS OF THE MICROSOMAL FRACTION. 1 BOUND TO THE CENTRAL PAIR MICROTUBULE C2 OR TO PROJECTIONS THAT ARE ATTACHED TO C2. 4 BOUND TO THE CYTOPLASMIC DOMAIN OF EITHER CD4 OR CD8. 2 BOUND TO THE MITOCHONDRIAL INNER MEMBRANE IN EUKARYOTIC CELLS WITH ITS ACTIVE SITE ON THE MATRIX SIDE OF THE MEMBRANE (BY SIMILARITY). 3 BOUND TO THE MITOCHONDRIAL INNER MEMBRANE IN EUKARYOTIC CELLS WITH ITS ACTIVE SITE ON THE MATRIX SIDE OF THE MEMBRANE. 2 BOUND TO THE MITOCHONDRIAL INNER MEMBRANE WITH ITS ACTIVE SITE FACING THE CYTOSOLIC SIDE (BY SIMILARITY). 2 BOUND TO THE MITOCHONDRIAL INNER MEMBRANE WITH ITS ACTIVE SITE FACING THE CYTOSOLIC SIDE. 1 BOUND TO THE MITOCHONDRIAL INNER-MEMBRANE FACING THE MATRIX SITE. 1 BOUND TO THE OUTER MITOCHONDRIAL MEMBRANE. ITS HYDROPHOBIC N-TERMINAL SEQUENCE MAY BE INVOLVED IN MEMBRANE BINDING (BY SIMILARITY). 4 BOUND TO THE OUTER MITOCHONDRIAL MEMBRANE. ITS HYDROPHOBIC N-TERMINAL SEQUENCE MAY BE INVOLVED IN MEMBRANE BINDING. 1 BUDS AND BUD SCARS. 5 BY VIRTUE OF THEIR SIZE, ALL BOMBININ-LIKE PEPTIDES ARE CAPABLE OF SPANNING A BILAYER LIPID MEMBRANE. 2 CALYX; SPERM HEAD CYTOSKELETAL STRUCTURE TIGHTLY ASSOCIATED TO THE NUCLEUS. 4 CALYX; SPERM HEAD CYTOSKELETAL STRUCTURE. 1 CAPSID-ASSOCIATED. 1 CAPSULE. 2 CAPZ IS LOCATED AT THE Z LINE IN CHICKEN MUSCLE. 1 CARTILAGE-SPECIFIC MATRIX. 2 CELL ENVELOPE (POTENTIAL). 1 CELL ENVELOPE-ASSOCIATED. 1 CELL ENVELOPE. 8 CELL MEMBRANE (BY SIMILARITY). 3 CELL MEMBRANE. 7 CELL SURFACE (POTENTIAL). 6 CELL SURFACE. 1 CELL WALL (BY SIMILARITY). 7 CELL WALL (POTENTIAL). 1 CELL WALL ASSOCIATED. 1 CELL WALL BOUND. 1 CELL WALL OF AERIAL HYPHAE AND SPORULATION STRUCTURES. ABUNDANTLY SECRETED. 1 CELL WALL OF AERIAL HYPHAE; ABUNDANTLY SECRETED FROM THE TIPS OF SUBMERGED HYPHAE. 2 CELL WALL PROTEIN (POTENTIAL). 1 CELL WALL PROTEIN; SECRETED (IN AQUEOUS ENVIRONMENT). 1 CELL WALL-ASSOCIATED. 22 CELL WALL. 3 CELL WALL. THIS BACTERIA IS COVERED BY A HEXAGONAL S-LAYER. 13 CELL WALL. THIS BACTERIA IS COVERED BY A S-LAYER WITH HEXAGONAL SYMMETRY. 2 CELL WALL. THIS BACTERIA IS COVERED BY A S-LAYER WITH OBLIQUE (P2) SYMMETRY. 1 CELL WALL. THIS BACTERIA IS COVERED BY A S-LAYER WITH TETRAGONAL SYMMETRY. 1 CELL WALL. THIS BACTERIA IS COVERED BY A S-LAYER WITH TETRAGONAL SYMMETRY. TETHERED TO THE OUTER MEMBRANE BY INTERACTION WITH O-SIDE CHAIN OF THE LPS. 1 CELL WALL; ABUNDANTLY SECRETED (IN AQUEOUS ENVIRONMENT). 1 CELL WALL; SECRETED (IN AQUEOUS ENVIRONMENT). 1 CELL-ASSOCIATED. 1 CELL-BOUND. IT C-TERMINUS MAY SERVE AS AN S-LAYER ANCHOR. 1 CELL-SURFACE OF THE BLASTOSPORES. 2 CELL-WALL BOUND. 2 CELLULAR MEMBRANE OR INTERCELLULAR MATRIX. 5 CELLULAR THYLAKOID MEMBRANE. 2 CENTRAL REGION OF THE NUCLEAR PORE, WITHIN THE TRANSPORTER. DURING MITOTIC CELL DIVISION, IT ASSOCIATES WITH THE POLES OF THE MITOTIC SPINDLE. 1 CENTRAL VACUOLE OF DEVELOPING LATICIFERS AND MEMBRANE-BOUND VESICLES OF MATURE CELLS. 1 CENTROSOMAL. 6 CENTROSOME OF INTERPHASE AND MITOTIC CELLS. 12 CHLOROPLAST (BY SIMILARITY). 5 CHLOROPLAST (CHROMOPLAST). 19 CHLOROPLAST (POTENTIAL). 22 CHLOROPLAST (PROBABLE). 1 CHLOROPLAST (THYLAKOID AND ENVELOPE MEMBRANES) AND MITOCHONDRION. 1 CHLOROPLAST (THYLAKOID AND ENVELOPE MEMBRANES). 1 CHLOROPLAST AND MITOCHONDRION. THE MAJORITY OF THE PROTEIN IS FOUND IN CHLOROPLAST, WITH ONLY 3% IN MITOCHONDRIA. 4 CHLOROPLAST AND NON-PHOTOSYNTHETIC PLASTIDS. 5 CHLOROPLAST AND OTHER PLASTIDS. 1 CHLOROPLAST ENVELOPE MEMBRANE. 1 CHLOROPLAST INNER MEMBRANE. 8 CHLOROPLAST OF GREEN TISSUE AND PLASTIDS OF NONPHOTOSYNTHETIC TISSUES (BY SIMILARITY). 8 CHLOROPLAST OF GREEN TISSUE AND PLASTIDS OF NONPHOTOSYNTHETIC TISSUES. 1 CHLOROPLAST OR AMYLOPLAST. 2 CHLOROPLAST STROMA (BY SIMILARITY). 3 CHLOROPLAST STROMA (CHROMOPLAST). 38 CHLOROPLAST STROMA. 2 CHLOROPLAST STROMA. A MINOR FRACTION IS ASSOCIATED WITH THE THYLAKOID MEMBRANE. 262 CHLOROPLAST THYLAKOID MEMBRANE. 14 CHLOROPLAST THYLAKOID MEMBRANE. FCPS ARE PROBABLY TRANSPORTED ACROSS THE ENDOPLASMIC RETICULUM MEMBRANES THAT SURROUND THE PLASTID VIA A SIGNAL PEPTIDE, FOLLOWED BY TRANSLOCATION ACROSS THE THYLAKOID MEMBRANE VIA A TRANSIT PEPTIDE. 31 CHLOROPLAST THYLAKOID MEMBRANE; ASSOCIATED WITH THE PHOTOSYSTEM II COMPLEX. 5 CHLOROPLAST THYLAKOID. 2 CHLOROPLAST, GRANULE-BOUND (BY SIMILARITY). 8 CHLOROPLAST, GRANULE-BOUND. 10 CHLOROPLAST, MEMBRANE-BOUND (PROBABLE). 2 CHLOROPLAST, PARTICULARLY IN THE PYRENOID AND THE THYLAKOID REGION. 1 CHLOROPLAST, SOLUBLE AND GRANULE-BOUND. 888 CHLOROPLAST. 4 CHLOROPLAST. ASSOCIATED WITH BOTH PHOTOSYSTEMS I AND II. 2 CHLOROPLAST. MEMBRANE ASSOCIATED. 2 CHLOROPLAST/AMYLOPLAST, SOLUBLE AND GRANULE- BOUND. 4 CHLOROPLAST; AMYLOPLAST. 6 CHLOROPLAST; INTEGRAL MEMBRANE PROTEIN (POTENTIAL). 2 CHLOROPLAST; INTEGRAL MEMBRANE PROTEIN (PROBABLE). 2 CHLOROPLAST; NON-GREEN PLASTIDIAL OUTER MEMBRANE. 4 CHLOROPLAST; STROMAL SIDE OF THE THYLAKOID MEMBRANE IN THE VICINITY OF THE PHOTOSYSTEM I IN THE NON-STACKED AND FRINGE PORTION OF THE MEMBRANE (BY SIMILARITY). 7 CHLOROPLAST; STROMAL SIDE OF THE THYLAKOID MEMBRANE IN THE VICINITY OF THE PHOTOSYSTEM I IN THE NON-STACKED AND FRINGE PORTION OF THE MEMBRANE. 11 CHLOROPLAST; WITHIN THE THYLAKOID LUMEN. 18 CHLOROPLASTS OF LEAVES AND AMYLOPLASTS OF DEVELOPING ENDOSPERM. 4 CHLOROSOME (PROBABLE). 1 CHLOROSOME. 1 CLASS GPI ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR. 1 COATED VESICLE. 1 COLOCALIZES WITH THE STRUCTURAL TRANSITIONS IN THE MICROFILAMENT NETWORK DURING CELLULARIZATION. 1 COLOCALIZES WITH THE STRUCTURAL TRANSITIONS IN THE MICROFILAMENT NETWORK DURING CELLULARIZATION. ASSOCIATION IS OBSERVED ONLY WHEN THE NETWORK ASSUMES AN ALIGNED AND TIGHTLY APPOSED HEXAGONAL CONFIGURATION. 5 COMPLEXED WITH MACROMOLECULAR ELEMENTS OF THE NERVE TERMINAL. 2 COMPONENT OF THE COAT SURROUNDING THE CYTOPLASMIC FACE OF COATED VESICLES IN THE PLASMA MEMBRANE (BY SIMILARITY). 15 COMPONENT OF THE COAT SURROUNDING THE CYTOPLASMIC FACE OF COATED VESICLES IN THE PLASMA MEMBRANE. 1 COMPONENT OF THE COAT SURROUNDING THE CYTOPLASMIC FACE OF COATED VESICLES LOCATED AT THE GOLGI COMPLEX (BY SIMILARITY). 10 COMPONENT OF THE COAT SURROUNDING THE CYTOPLASMIC FACE OF COATED VESICLES LOCATED AT THE GOLGI COMPLEX. 1 COMPONENT OF THE COAT SURROUNDING THE CYTOPLASMIC FACE OF THE PLASMA MEMBRANE COATED VESICLES. 1 COMPONENT OF THE MICROFILAMENT SYSTEM (BY SIMILARITY). 1 COMPONENT OF THE MICROFILAMENT SYSTEM. 2 COMPONENT OF THE WALLS OF THE GERMINATED EMBRYOS. 1 COMPONENT OF THE WALLS OF THE MATURE, UNGERMINATED EMBRYOS. 2 CONCENTRATED AROUND THE POLAR ENDS OF BOTH MEIOTIC AND MITOTIC SPINDLES. 1 CONCENTRATED AT SYNAPTIC JUNCTIONS PRIMARILY ON THE PRESYNAPTIC SIDE (BY SIMILARITY). 2 CONCENTRATED AT SYNAPTIC JUNCTIONS PRIMARILY ON THE PRESYNAPTIC SIDE (WAS ORIGINALLY THOUGHT TO BE POSTSYNAPTIC). 1 CONCENTRATED IN A PERINUCLEAR RING AS WELL AS IN THE CYTOPLASM (ACCORDING TO REF.2). 1 CONCENTRATED IN THE CELL BODY OF THE NEURONS, PARTICULARLY IN THE PERINUCLEAR REGION. 1 CORTICAL CYTOSKELETON-ASSOCIATED PROTEIN. 2 CORTICAL CYTOSKELETON. 14 COTYLEDONARY MEMBRANE-BOUND VACUOLAR PROTEIN BODIES. 11 CYANELLE THYLAKOID MEMBRANE. 4 CYANELLE. 1 CYTOPLASM OR SOLUBLE FRACTIONS OF CYTOPLASMIC ORGANELLES, EXCEPT MITOCHONDRIA AND PLASTIDS. 1 CYTOPLASMIC (80%) AND NUCLEAR (20%). 2 CYTOPLASMIC (AS GLOBULES) AND VACUOLAR (AS PROTEIN BODIES). 661 CYTOPLASMIC (BY SIMILARITY). 1 CYTOPLASMIC (FOLLOWING OOCYTE MATURATION), THEN NUCLEAR (BLASTULA/GASTRULA STAGE). 1 CYTOPLASMIC (FOR MEK5-BETA) AND PARTICULATE (MEK5-ALPHA). THE ALTERNATIVELY SPLICED EXON IN ALPHA ISOFORM RESEMBLE CONSERVED SEQUENCES THAT MEDIATE INTERACTIONS WITH THE CYTOSKELETON, THEREBY EXPLAINING THE DIFFERENTIAL LOCALIZATION. 2 CYTOPLASMIC (IN INFECTED CELLS). 1 CYTOPLASMIC (MOSTLY) AND NUCLEAR. 2 CYTOPLASMIC (POSSIBLE). 382 CYTOPLASMIC (POTENTIAL). 315 CYTOPLASMIC (PROBABLE). 1 CYTOPLASMIC AND ALSO IN CELL MEMBRANES. 1 CYTOPLASMIC AND BOUND TO THE ER MEMBRANE. 1 CYTOPLASMIC AND CELL ENVELOPE. 3 CYTOPLASMIC AND CELL WALL. 2 CYTOPLASMIC AND LOOSELY ASSOCIATED WITH THE OUTER MEMBRANE. 1 CYTOPLASMIC AND MEMBRANE-ASSOCIATED WITH THE INNER SURFACE OF CELL MEMBRANE. 4 CYTOPLASMIC AND MEMBRANE-ASSOCIATED. 2 CYTOPLASMIC AND MEMBRANE-BOUND. 1 CYTOPLASMIC AND MITOCHONDRIAL. 1 CYTOPLASMIC AND NUCLEAR (ASSOCIATED WITH THE CHROMATIN). 15 CYTOPLASMIC AND NUCLEAR (BY SIMILARITY). 1 CYTOPLASMIC AND NUCLEAR (OF INFECTED HOST). 38 CYTOPLASMIC AND NUCLEAR (POTENTIAL). 4 CYTOPLASMIC AND NUCLEAR ENVELOPE (BY SIMILARITY). 2 CYTOPLASMIC AND NUCLEAR ENVELOPE. 1 CYTOPLASMIC AND NUCLEAR, WHERE IT IS ABUNDANT. 38 CYTOPLASMIC AND NUCLEAR. 1 CYTOPLASMIC AND NUCLEAR. AT THE ONSET OF THE CRYPTOBLASTIC PHASE, WHEN TRANSCRIPTION IS BLOCKED, IT ACCUMULATES IN THE CYTOPLASM. 1 CYTOPLASMIC AND NUCLEAR. FOUND PARTICULARLY IN THE NUCLEAR RIM AND NUCLEOLUS. 2 CYTOPLASMIC AND NUCLEAR; CENTROSOMES. 1 CYTOPLASMIC AND PERINUCLEAR. 1 CYTOPLASMIC AND PERIPLASMIC, AND A LOW EXPOSURE ON THE CELL SURFACE. 3 CYTOPLASMIC AND PEROXISOMAL. 3 CYTOPLASMIC AND PLASMA MEMBRANE. 1 CYTOPLASMIC AND POSSIBLY NUCLEAR. 1 CYTOPLASMIC AND VESICULAR MEMBRANE- ASSOCIATED (BY SIMILARITY). 1 CYTOPLASMIC AND VESICULAR MEMBRANE- ASSOCIATED. 1 CYTOPLASMIC AND/OR NUCLEAR. 2 CYTOPLASMIC BUT CONNECTED TO THE INNER MEMBRANE POSSIBLY THROUGH LCRD (PROBABLE). 3 CYTOPLASMIC DURING NORMAL GROWTH AND MOVES TO THE NUCLEUS UPON ACTIVATION (BY SIMILARITY). 4 CYTOPLASMIC DURING NORMAL GROWTH AND MOVES TO THE NUCLEUS UPON ACTIVATION. 1 CYTOPLASMIC FACE OF ADHESION PLAQUES (BY SIMILARITY). 5 CYTOPLASMIC FACE OF ADHESION PLAQUES. 3 CYTOPLASMIC FACE OF COATED PITS AND VESICLES (BY SIMILARITY). 14 CYTOPLASMIC FACE OF COATED PITS AND VESICLES. 1 CYTOPLASMIC FACE OF GLYCINERGIC POSTSYNAPTIC MEMBRANES. 1 CYTOPLASMIC FACE OF THE MEMBRANE (BY SIMILARITY). 1 CYTOPLASMIC FACE OF THE MEMBRANE. 1 CYTOPLASMIC FILAMENTS. 2 CYTOPLASMIC GRANULES OF CYTOLYTIC T- LYMPHOCYTES AND NATURAL KILLER CELLS. 1 CYTOPLASMIC GRANULES OF CYTOLYTIC T-LYMPHOCYTES (BY SIMILARITY). 12 CYTOPLASMIC GRANULES OF CYTOLYTIC T-LYMPHOCYTES. 3 CYTOPLASMIC GRANULES OF EOSINOPHILS. 1 CYTOPLASMIC GRANULES OF NEUTROPHILS. 10 CYTOPLASMIC GRANULES. 3 CYTOPLASMIC IN A SOLUBLE AND MEMBRANE- ASSOCIATED FORM. 1 CYTOPLASMIC IN INFECTED CELLS. 2 CYTOPLASMIC IN MOST TISSUES, BUT ALSO SECRETED IN THE BLOOD PLASMA. 1 CYTOPLASMIC IN THE LIVER AND ALSO ASSOCIATED WITH MITOCHONDRIA ESPECIALLY IN STEROIDOGENIC TISSUES. 4 CYTOPLASMIC IN THE LIVER AND ALSO ASSOCIATED WITH MITOCHONDRIA ESPECIALLY IN STEROIDOGENIC TISSUES. SCP-X RESIDES IN THE PEROXISOME. 13 CYTOPLASMIC INCLUSION BODIES. 9 CYTOPLASMIC MEMBRANE. 1 CYTOPLASMIC MICROTUBULES AND MITOTIC SPINDLES. 2 CYTOPLASMIC OR ASSOCIATED WITH INNER SURFACE OF PLASMA MEMBRANE. 1 CYTOPLASMIC OR ASSOCIATED WITH THE INNER MEMBRANE. 2 CYTOPLASMIC OR EXTRACELLULAR. 1 CYTOPLASMIC OR EXTRACELLULAR. (BY SIMILARITY). 2 CYTOPLASMIC OR MAY BE SECRETED BY A NON- CLASSICAL SECRETORY PATHWAY. 1 CYTOPLASMIC OR MITOCHONDRIAL MATRIX. 1 CYTOPLASMIC OR NUCLEAR (POTENTIAL). 1 CYTOPLASMIC OR NUCLEAR. 4 CYTOPLASMIC PERIPHERAL MEMBRANE PROTEIN. 14 CYTOPLASMIC SIDE OF MEMBRANE (BY SIMILARITY). 1 CYTOPLASMIC SIDE OF MEMBRANE, AND CYTOPLASMIC. 11 CYTOPLASMIC SIDE OF MYELIN. 6 CYTOPLASMIC SIDE OF PLASMA MEMBRANE (BY SIMILARITY). 2 CYTOPLASMIC SIDE OF PLASMA MEMBRANE. 5 CYTOPLASMIC SIDE OF THE MEMBRANE OF INFECTED ERYTHROCYTES. 1 CYTOPLASMIC SIDE OF THE VACUOLAR MEMBRANE. 2 CYTOPLASMIC SURFACE OF ERYTHROCYTE MEMBRANES. 2 CYTOPLASMIC SURFACE OF ERYTHROCYTIC PLASMA MEMBRANE. 2 CYTOPLASMIC SURFACE OF GROWTH CONE AND SYNAPTIC PLASMA MEMBRANES (BY SIMILARITY). 6 CYTOPLASMIC SURFACE OF GROWTH CONE AND SYNAPTIC PLASMA MEMBRANES. 3 CYTOPLASMIC SURFACE OF POSTSYNAPTIC MEMBRANES. 3 CYTOPLASMIC SURFACE OF THE ENDOPLASMIC RETICULUM MEMBRANE. 1 CYTOPLASMIC SURFACE OF THE NUCLEAR PORE COMPLEX. THE ASSEMBLY OF THE NPC IS A STEPWISE PROCESS IN WHICH TRP-CONTAINING PERIPHERAL STRUCTURES ASSEMBLE AFTER OTHER COMPONENTS, INCLUDING P62. 2 CYTOPLASMIC SURFACE OF THE PLASMA MEMBRANE. 1 CYTOPLASMIC TIGHT JUNCTIONS OR ASSOCIATED WITH VESICLES SCATTERED THROUGHOUT THE CYTOPLASM IN CELLS LACKING TIGHT JUNCTIONS. 1 CYTOPLASMIC VESICLES. 1 CYTOPLASMIC, 5% ARE NUCLEUS ASSOCIATED AND LOCALIZE TO THE NUCLEAR PORE COMPLEXES. 1 CYTOPLASMIC, ALSO DETECTED IN NUCLEAR EXTRACTS. 1 CYTOPLASMIC, ALSO PRESENT IN ENDOPLASMIC RETICULUM (BY SIMILARITY). 1 CYTOPLASMIC, ALSO PRESENT IN ENDOPLASMIC RETICULUM. 1 CYTOPLASMIC, AND INNER MEMBRANE-ASSOCIATED (BY SIMILARITY). 1 CYTOPLASMIC, AND INNER MEMBRANE-ASSOCIATED. 1 CYTOPLASMIC, AND MEMBRANE-ASSOCIATED. 3 CYTOPLASMIC, AND PARTIALLY ASSOCIATED WITH PARTICULATE FRACTIONS. 1 CYTOPLASMIC, ASSOCIATED WITH THE CYTOSKELETON (BY SIMILARITY). 1 CYTOPLASMIC, ASSOCIATED WITH THE CYTOSKELETON. 1 CYTOPLASMIC, BOUND TO THE INNER FACE OF THE CYTOPLASMIC MEMBRANE (BY SIMILARITY). 1 CYTOPLASMIC, BOUND TO THE INNER FACE OF THE CYTOPLASMIC MEMBRANE. 2 CYTOPLASMIC, EITHER FREE OR ASSOCIATED WITH RIBONUCLEOPROTEIN PARTICLES. 1 CYTOPLASMIC, IN THE RIBOSOME-FREE TRANSITIONAL FACE OF THE ER AND ASSOCIATED VESICLES (BY SIMILARITY). 1 CYTOPLASMIC, IN THE RIBOSOME-FREE TRANSITIONAL FACE OF THE ER AND ASSOCIATED VESICLES. 1 CYTOPLASMIC, IN UNFERTILIZED EGGS, AND SHIFTED TO THE PERIPHERAL REGIONS AFTER FERTILIZATION. 1 CYTOPLASMIC, JUST BELOW THE PLASMA MEMBRANE. 2 CYTOPLASMIC, MEMBRANE-ASSOCIATED (BY SIMILARITY). 6 CYTOPLASMIC, MEMBRANE-ASSOCIATED. 1 CYTOPLASMIC, NUCLEAR AND PERINUCLEAR MEMBRANES. 1 CYTOPLASMIC, PERINUCLEAR. 1 CYTOPLASMIC, PROTEIN BODIES, AND CELL WALLS OF ZYGOTIC EMBRYO AND ENDOSPERM TISSUE. 3606 CYTOPLASMIC. 1 CYTOPLASMIC. ALTHOUGH REF.2 REPORTED IT AS PERIPLASMIC. 34 CYTOPLASMIC. ASSEMBLE AT THE INNER SURFACE OF THE CYTOPLASMIC MEMBRANE (BY SIMILARITY). 1 CYTOPLASMIC. ASSEMBLE AT THE INNER SURFACE OF THE CYTOPLASMIC MEMBRANE (POTENTIAL). 1 CYTOPLASMIC. ASSEMBLE AT THE INNER SURFACE OF THE CYTOPLASMIC MEMBRANE. 1 CYTOPLASMIC. ASSOCIATED WITH INTRACELLULAR MEMBRANES. PROBABLY PRESENT ON VESICLES OPERATIONAL BETWEEN THE ER AND THE GOLGI COMPLEX. 1 CYTOPLASMIC. ASSOCIATED WITH THE MEMBRANE WHEN HYPERPHOSPHORYLATED. 1 CYTOPLASMIC. ASSOCIATED WITH TRANSLATING RIBOSOMES; MAY BIND DIRECTLY TO THE NASCENT POLYPEPTIDE (BY SIMILARITY). 3 CYTOPLASMIC. ASSOCIATED WITH TRANSLATING RIBOSOMES; MAY BIND DIRECTLY TO THE NASCENT POLYPEPTIDE. 1 CYTOPLASMIC. ATTACHED TO THE INNER SIDE OF THE MEMBRANE BY A LIPID ANCHOR. 1 CYTOPLASMIC. BINDING TO PPAR INDUCES TRANSLOCATION TO THE NUCLEUS. 3 CYTOPLASMIC. CAN BE LOOSELY BOUND TO THE MEMBRANES. 1 CYTOPLASMIC. FOUND IN F-ACTIN-RICH REGIONS OF THE CELL CORTEX AND CELL PROTRUSIONS. 1 CYTOPLASMIC. IN COMPLEX WITH VHL CAN TRANSLOCATE TO THE NUCLEUS. 1 CYTOPLASMIC. IT IS CONCENTRATED IN THE CORTICAL REGION OF THE EMBRYO BENEATH THE NUCLEI. 3 CYTOPLASMIC. IT MAY BE SECRETED THROUGH AN UNKNOWN MECHANISM. 1 CYTOPLASMIC. MAY ALSO BE SECRETED BY A NON- CLASSICAL SECRETORY PATHWAY (BY SIMILARITY). 1 CYTOPLASMIC. MAY ALSO BE SECRETED BY A NON- CLASSICAL SECRETORY PATHWAY. 1 CYTOPLASMIC. MIGHT BE TETHERED TO THE PLASMA MEMBRANE. 1 CYTOPLASMIC. PERIPHERALLY ASSOCIATED WITH MEMBRANES (BY SIMILARITY). 1 CYTOPLASMIC. PERIPHERALLY ASSOCIATED WITH MEMBRANES. 2 CYTOPLASMIC. PERIPHERALLY ASSOCIATED WITH THE GOLGI MEMBRANE, AND TO BE FOUND ON TRANSCYTOTIC VESICLES. 2 CYTOPLASMIC. PROBABLY BINDS INDIRECTLY TO THE INNER PLASMA MEMBRANE. 1 CYTOPLASMIC. THE FAM1-1 MUTANT IS IMPORTED IN THE MITOCHONDRIA. 1 CYTOPLASMIC. TO A SMALLER EXTENT IN THE INNER MEMBRANE BY ASSOCIATION WITH ANOTHER PROTEIN. 3 CYTOPLASMIC. TRANSLOCATES TO MEMBRANE VESICLES IN A CALCIUM-DEPENDENT FASHION (BY SIMILARITY). 2 CYTOPLASMIC. TRANSLOCATES TO MEMBRANE VESICLES IN A CALCIUM-DEPENDENT FASHION. 1 CYTOPLASMIC; ACCUMULATES IN THE NUCLEUS UPON BACTERIAL INFECTION OF INJURY. 1 CYTOPLASMIC; ASSOCIATED WITH THE PERIPHERAL GOLGI MEMBRANE. 3 CYTOPLASMIC; ASSOCIATES WITH THE ACTIN CYTOSKELETON NEAR THE ADHESION PLAQUES. 1 CYTOPLASMIC; EXHIBITS A FILAMENTOUS ORGANIZATION. 1 CYTOPLASMIC; HYPODENSE COMPARTMENT. 4 CYTOPLASMIC; IN INFECTED CELL. 5 CYTOPLASMIC; LOCALIZED TO FOCAL ADHESIONS. 2 CYTOPLASMIC; LOOSELY ASSOCIATED TO THE CYTOSKELETON. 1 CYTOPLASMIC; MAINLY AROUND THE NUCLEUS. 2 CYTOPLASMIC; MAINLY. 1 CYTOPLASMIC; MAY ASSOCIATE WITH MEMBRANES. 2 CYTOPLASMIC; MEMBRANE-ASSOCIATED WHEN ACTIVATED (BY SIMILARITY). 1 CYTOPLASMIC; MEMBRANE-ASSOCIATED WHEN ACTIVATED. 1 CYTOPLASMIC; POSSIBLE INTERACTION WITH THE INNER MEMBRANE (BY SIMILARITY). 1 CYTOPLASMIC; POSSIBLE INTERACTION WITH THE INNER MEMBRANE. 1 CYTOPLASMIC; POSSIBLY ENRICHED IN THE NUCLEAR PERIPHERY. 1 CYTOPLASMIC; RAPIDLY ASSEMBLES AT THE LEADING EDGE OF CELLS IN RESPONSE TO CHEMOATTRACTANT. 1 CYTOPLASMIC; SOMETIME MEMBRANE-ASSOCIATED. 1 CYTOPLASMIC; THE MYRISTOYLATED C-ABL PROTEIN WAS REPORTED TO BE NUCLEAR. 12 CYTOSKELETAL. 1 CYTOSKELETON-ASSOCIATED. LOCATED AT THE CYTOPLASMIC FACE OF THE MEMBRANE IN THE CELLULAR BLASTODERM AND BECOMES ASSOCIATED WITH SEPTATE JUNCTIONS WHICH BEGIN TO FORM BETWEEN EPITHELIAL CELLS AT THE TIME OF DORSAL CLOSURE. IN ADULT FLIES, LOCATED AT THE APICAL-LATERAL MEMBRANE BOUNDARY OF EPITHELIAL CELLS. 2 CYTOSKELETON. 1 CYTOSOLIC FACE OF THE VACUOLAR MEMBRANE. 1 DENSE CORE VESICLES (DCV). 1 DURING EARLY STATIONARY GROWTH PHASE ABOUT 10% OF THE ENZYME MOLECULES REMAIN CELL-BOUND WHILST ABOUT 90% ARE RELEASED INTO THE GROWTH MEDIUM. 1 DUT-N IS NUCLEAR, DUT-M IS MITOCHONDRIAL. 2 EACH OF THE THREE TYHMOPOIETIN FORMS MAY BE LOCALIZED TO DIFFERENT SUBCELLULAR COMPARTMENTS. THOUGH THERE IS NO SIGNAL SEQUENCE, THERE IS EVIDENCE OF EXTRACELLULAR TP WHICH COULD POSSIBLY BE SECRETED VIA AN ALTERNATIVE SECRETION PATHWAY. INTRACELLULAR ALPHA TP APPEARS TO BE INTRANUCLEAR. 1 EITHER CELL ASSOCIATED OR IN A RELEASED EXTRACELLULAR FORM (BY SIMILARITY). 1 EITHER CELL ASSOCIATED OR IN A RELEASED EXTRACELLULAR FORM. 1 EITHER IN THE NUCLEOID (CHROMATIN) OR IN THE OUTER MEMBRANE. 1 EITHER SECRETED OR RESIDENT IN THE ENDOPLASMIC RETICULUM. 2 EMBRYO AXIS, AND COTYLEDONARY MEMBRANE-BOUND VACUOLAR PROTEIN BODIES. 4 ENDOMEMBRANE. 1 ENDOPLASMIC RETICULUM (BY SIMILARITY). 1 ENDOPLASMIC RETICULUM (POTENTIAL). 1 ENDOPLASMIC RETICULUM (PROBABLE). 17 ENDOPLASMIC RETICULUM AND MITOCHONDRIAL MEMBRANE-BOUND PROTEIN. 20 ENDOPLASMIC RETICULUM LUMEN (BY SIMILARITY). 18 ENDOPLASMIC RETICULUM LUMEN (POTENTIAL). 1 ENDOPLASMIC RETICULUM LUMEN AND SARCOPLASMIC RETICULUM (SR). 101 ENDOPLASMIC RETICULUM LUMEN. 2 ENDOPLASMIC RETICULUM LUMEN. MEMBRANE ASSOCIATED (PROBABLE). 1 ENDOPLASMIC RETICULUM MEMBRANE (POTENTIAL). 1 ENDOPLASMIC RETICULUM MEMBRANE (PROBABLE). 5 ENDOPLASMIC RETICULUM MEMBRANE. 2 ENDOPLASMIC RETICULUM MEMBRANE. THOUGHT TO BE ANCHORED IN THE MEMBRANE THROUGH AN INTERACTION WITH SR-BETA, WHICH CONTAINS A BONA FIDE TRANSMEMBRANE DOMAIN. 3 ENDOPLASMIC RETICULUM, PEROXISOMAL AND IN MITOCHONDRIAL INNER MEMBRANE; INNER SIDE (POTENTIAL). 1 ENDOPLASMIC RETICULUM-GOLGI INTERMEDIATE COMPARTMENT (BY SIMILARITY). 1 ENDOPLASMIC RETICULUM-GOLGI INTERMEDIATE COMPARTMENT. 22 ENDOPLASMIC RETICULUM. 14 ENDOPLASMIC RETICULUM. ANCHORED TO THE ER MEMBRANE BY ITS N-TERMINAL HYDROPHOBIC REGION. 2 ENDOSOMAL COMPARTMENTS AND PLASMA MEMBRANE. 2 ENDOSOME. 2 ENDOSPERM PROTEIN BODIES. 1 ENRICHED IN APICAL VESICLES (ISOFORM B). 1 ENRICHED IN THE NUCLEUS IN MITOTICALLY ARRESTED MUTANT AND WILD-TYPE MITOTIC CELLS BUT CYTOPLASMIC ENRICHED IN CELLS AT OTHER CELL-CYCLE STAGES. 4 ENVELOPE FRACTION OF VIRIONS. 2 ENVELOPE PROTEIN OF THE CHLOROSOME. 1 EPIDERMAL BASAL LAMINA. 1 ERYTHROCYTE CYTOPLASM OF SCHIZONTS. RELEASED INTO THE CULTURE SUPERNATANT AT THE TIME OF SCHIZONT RUPTURE. ONLY A MINOR FRACTION OF GBP WAS FOUND TO BE LOOSELY ASSOCIATED WITH MEROZOITES. 1 EXISTS AS BOTH A SOLUBLE AND MEMBRANE-BOUND FORM IN CHROMAFFIN GRANULES. (THE MEMBRANE-BOUND FORM MAY BE ANCHORED BY AN UNCLEAVED SIGNAL SEQUENCE) (BY SIMILARITY). 1 EXISTS AS BOTH A SOLUBLE AND MEMBRANE-BOUND FORM IN CHROMAFFIN GRANULES. (THE MEMBRANE-BOUND FORM MAY BE ANCHORED BY AN UNCLEAVED SIGNAL SEQUENCE). 3 EXISTS BOTH AS A MEMBRANE-BOUND FORM AND AS SOLUBLE FORM IN SERUM AND IN THE EXTRACELLULAR MATRIX. 2 EXISTS BOTH IN A SOLUBLE FORM (IN CHROMAFFIN GRANULES) AND AS MEMBRANE BOUND (THE MEMBRANE BOUND FORM IS ANCHORED BY AN UNCLEAVED SIGNAL PEPTIDE). 1 EXISTS IN BOTH MYCELIUM-ASSOCIATED AND EXTRACELLULAR FORMS. 1 EXPORTED ANTIGEN THAT ACCUMULATES IN THE PARASITOPHOROUS VACUOLE. 2 EXPOSED ON THE CYTOPLASMIC SURFACE OF THE MEMBRANE. 20 EXPRESSED ON THE SURFACE OF THE INFECTED CELLS AND INCORPORATED IN THE MEMBRANE OF THE VIRIONS. 1 EXPRESSED ON THE SURFACE OF THE INFECTED CELLS AND INCORPORATED IN THE MEMBRANE OF THE VIRIONS. PROBABLE TYPE II MEMBRANE PROTEIN. 1 EXTERNAL TO THE CYTOPLASMIC MEMBRANE. 52 EXTERNAL, ANCHORED TO THE ENVELOPE BY ITS N-TERMINAL HYDROPHOBIC SEQUENCE. 10 EXTRACELLULAR (BY SIMILARITY). 6 EXTRACELLULAR (POTENTIAL). 8 EXTRACELLULAR (PROBABLE). 3 EXTRACELLULAR FLUID FROM LEAVES. 6 EXTRACELLULAR MATRIX OF ELASTIC FIBERS. 41 EXTRACELLULAR MATRIX. 1 EXTRACELLULAR MATRIX. COMPONENT OF BOTH BASEMENT MEMBRANES AND OTHER CONNECTIVE TISSUES. 1 EXTRACELLULAR SURFACE OF R-CELL PLASMA MEMBRANE. 2 EXTRACELLULAR, CARAPACE. 622 EXTRACELLULAR. 1 EXTRACELLULAR. IN VESICLES IN THE CYTOPLASM OF UNFERTILIZED EGGS, THEN TO THE BASE OF THE HYALIN LAYER THROUGHOUT DEVELOPMENT AND FINALLY IN THE APICAL LAMINA IN LATE EMBRYOS AND EARLY LARVAE. 1 EXTRACELLULAR. INTERCELLULAR FLUID OF LEAVES. 9 EXTRACELLULAR; FOUND IN THE BASEMENT MEMBRANES (MAJOR COMPONENT). 1 EXTRACELLULAR; SECRETED (BY SIMILARITY). 2 EXTRACELLULAR; SECRETED INTO THE CUTICLE AND ULTIMATELY RELEASED INTO THE MEDIUM. 4 EXTRACELLULAR; SECRETED. 2 EXTREME LATERAL LOCATION TO THE APPRESSED THYLAKOID REGIONS. 1 FBPASE-CONTAINING VESICLES; PERIPHERAL MEMBRANE PROTEIN. 27 FIMBRIA. 4 FIRMLY BOUND TO MEMBRANE STRUCTURES OF BRAIN WHITE MATTER. 3 FIRST CYTOPLASMIC, UPON BINDING WITH LIGAND AND INTERACTION WITH A HSP90, IT TRANSLOCATES TO THE NUCLEUS. 1 FIRST DETECTED IN A PERINUCLEAR REGION, THEN IN AN APICAL AND SUBMEMBRANOUS POSITION JUST BEFORE ITS SECRETION INTO THE PERIVITELLINE SPACE. 1 FLAGELLUM (POTENTIAL). 6 FLAGELLUM. 2 FOCAL ADHESIONS. 2 FOUND AT CELL-CELL BOUNDARIES AND PROBABLY AT CELL-MATRIX BOUNDARIES. 1 FOUND EXCLUSIVELY AT THE SURFACE OF THE LIPID STORAGE DROPLETS. 1 FOUND IN GLYCOSOMES, AS WELL AS CYTOPLASM. 1 FOUND IN THE CYTOPLASMIC MEMBRANE IN A FORM THAT IS CLOSELY ASSOCIATED WITH THE CELL WALL. 3 FOUND ON LATE ENDOSOMES (BY SIMILARITY). 1 FOUND ON LATE ENDOSOMES. 1 FOUND ONLY AT CELL-CELL BOUNDARIES. 10 GAS VESICLE MEMBRANE. 2 GENERALLY ASSOCIATED WITH MEMBRANES; CYTOPLASMIC WHEN PHOSPHORYLATED BY CDC2 (BY SIMILARITY). 1 GENERALLY ASSOCIATED WITH MEMBRANES; CYTOPLASMIC WHEN PHOSPHORYLATED BY CDC2. 1 GLYCOSOMAL (BY SIMILARITY). 14 GLYCOSOMAL. 32 GLYOXYSOMAL. 1 GOLGI COMPARTMENT (BY SIMILARITY). 1 GOLGI COMPARTMENT. 1 GOLGI LUMEN. 1 GOLGI MEMBRANE. 1 GOLGI STACK AND VACUOLES. 1 GOLGI-DERIVED CYTOPLASMIC MEMBRANES (POTENTIAL). 2 GRANULES OF LARGE GRANULAR LYMPHOCYTES. 1 GRANULES OF PROMYELOCYTES. 8 HE IN INFECTED CELLS BECOMES INCORPORATED INTO VIRIONS DURING VIRUS ASSEMBLY AT THE ENDOPLASMIC RETICULUM AND CIS GOLGI. SOME, HOWEVER, MAY ESCAPE INCORPORATION INTO VIRIONS AND SUBSEQUENTLY MIGRATE TO THE CELL SURFACE. 1 HIGHEST CONCENTRATION IN THE POSTERIOR CELL CORTEX. 2 HIGHEST CONCENTRATION JUST BENEATH THE PLASMA MEMBRANE IN THE ANTERIOR PSEUDOPOD AT THE LEADING EDGE OF THE CELL. 3 HIGHLY CONCENTRATED IN THE UNDERCOAT OF THE CELL-TO-CELL ADHERENS JUNCTION AND THE CLEAVAGE FURROW IN THE INTERPHASE AND MITOTIC PHASE, RESPECTIVELY. 1 HIGHLY ENRICHED ON APICAL ENDOCYTIC STRUCTURES IN POLARIZED EPITHELIAL CELLS OF KIDNEY PROXIMAL TUBULES. 1 HIGHLY ENRICHED ON APICAL ENDOCYTIC STRUCTURES IN POLARIZED EPITHELIAL CELLS OF KIDNEY PROXIMAL TUBULES. DETECTED ON BOTH THE APICAL AND BASOLATERAL DOMAINS IN EPITHELIAL CELLS OF THE INTESTINE. 8 HYDROGENOSOMAL. 3 ICL, INNERMOST FIBROUS NETWORK OF THE CORTICAL CYTOSKELETON. 1 IF THE NH2 TERMINUS IS A FUNCTIONAL SIGNAL SEQUENCE, THE PROTEIN IS PREDICTED TO BE ORIENTED TOWARD THE LUMEN OF THE ENDOPLASMIC RETICULUM WITH BOTH TERMINI SERVING AS ANCHORS. THE LACK OF A SIGNAL SEQUENCE INDICATES THAT THE ENZYME FACES THE CYTOPLASM AND IS ANCHORED AT THE COOH TERMINUS. 1 IN ASSOCIATION WITH THE CYTOPLASMIC FACE OF THE GOLGI (BY SIMILARITY). 1 IN ASSOCIATION WITH THE CYTOPLASMIC FACE OF THE GOLGI (PROBABLE). 1 IN BOTH THE CYTOPLASM AND THE EXTRACELLULAR MATRICES. 1 IN CILIA AND GOLGI COMPLEXES. 1 IN CULTURED T84 CELLS, IT IS RESTRICTED TO THE CYTOPLASMIC SURFACE OF THE PLASMA MEMBRANES BETWEEN ADJACENT CELLS, BUT NOT AT THE EDGES OF CELLS LACKING CELL-CELL CONTACT. 1 IN MAST CELL GRANULES AS A COMPLEX WITH TRYPTASE. 1 IN MEMBRANE VESICLES. 1 IN MICRONEME/RHOPTRY COMPLEXES. 1 IN NORMAL CELLS, PROBABLY IN ASSOCIATION WITH THE PLASMA MEMBRANE & POSSIBLY THE ENDOPLASMIC RETICULUM. P80/85 COLOCALIZES WITH F-ACTIN IN PERIPHERAL EXTENSIONS OF NORMAL CELLS AND ROSETTES (PODOSOMES) OF SRC-TRANSFORMED CELLS. P80/85 PROBABLY ASSOCIATES WITH COMPONENTS OF THE CYTOSKELETON. 6 IN RICE PROLAMIN ACCUMULATES AS TYPE I PROTEIN BODY, WHICH ORIGINATES DIRECTLY FROM THE ENDOPLASMIC RETICULUM. 1 IN THE CYTOSOL OF THE COTYLEDON CELLS RATHER THAN IN VACUOLES OR PROTEIN BODIES. 2 IN THE ENDOMEMBRANE, PROBABLY IN THE LUMEN OF ENDOPLASMIC RETICULUM. 1 IN THE ENDOPLASMIC RETICULUM/CIS-GOLGI REGION AND ON LATE ENDOSOMAL STRUCTURES. 1 IN THE HEMOLYTIC BIOTYPE EL TOR THE 80 KD HEMOLYSIN PRECURSOR IS SECRETED AND EXTRACELLULARLY CLEAVED, PRODUCING ACTIVE 65KD HEMOLYSIN. 8 IN THE LAMINA BENEATH THE PLASMA MEMBRANE. 1 IN THE LUTOIDS (VACUOLES) FROM RUBBER LATEX. 1 IN THE NUCLEAR ENVELOPE DURING INTERPHASE TO METAPHASE, AND IN THE NUCLEOPLASM AND CYTOPLASM DURING ANAPHASE AND TELOPHASE. 1 IN VENTRAL REGIONS IT IS FIRST CYTOPLASMIC, THEN THE PROTEIN IS RELOCALIZED IN THE NUCLEUS. ITS NUCLEAR LOCALIZATION IS ESSENTIAL TO ITS FUNCTION AS A MORPHOGEN. IN DORSAL REGIONS IT REMAINS CYTOPLASMIC. 4 INDUCED ON THE SURFACE OF VACCINIA VIRUS-INFECTED CELLS. 1 INITIALLY A PERIPHERAL MEMBRANE PROTEIN ASSOCIATED WITH THE MICROSOMAL MEMBRANE FRACTIONS. MAY BE TARGETED TO THE NUCLEUS LATER IN DEVELOPMENT. 7 INNER CAPSID. 2 INNER CORE. 6 INNER LAYER. 4 INNER MEMBRANE (BY SIMILARITY). 1 INNER MEMBRANE (POTENTIA). 11 INNER MEMBRANE (POTENTIAL). 25 INNER MEMBRANE (PROBABLE). 2 INNER MEMBRANE-ANCHORED (POSSIBLE). 2 INNER MEMBRANE-ANCHORED (POTENTIAL). 10 INNER MEMBRANE-ASSOCIATED (BY SIMILARITY). 2 INNER MEMBRANE-ASSOCIATED (CYTOPLASMIC SIDE) (PROBABLE). 76 INNER MEMBRANE-ASSOCIATED (POTENTIAL). 2 INNER MEMBRANE-ASSOCIATED AND CYTOPLASMIC. COLOCALIZES WITH THE STRUCTURAL TRANSITIONS IN THE MICROFILAMENT NETWORK DURING CELLULARIZATION (BY SIMILARITY). 1 INNER MEMBRANE-ASSOCIATED AND CYTOPLASMIC. COLOCALIZES WITH THE STRUCTURAL TRANSITIONS IN THE MICROFILAMENT NETWORK DURING CELLULARIZATION. 61 INNER MEMBRANE-ASSOCIATED. 1 INNER MEMBRANE-ASSOCIATED. N-TERMINAL LIES IN THE PERIPLASMIC SPACE (BY SIMILARITY). 2 INNER MEMBRANE-ASSOCIATED. N-TERMINAL LIES IN THE PERIPLASMIC SPACE (POTENTIAL). 2 INNER MEMBRANE-ASSOCIATED. N-TERMINAL LIES IN THE PERIPLASMIC SPACE. 13 INNER MEMBRANE-BOUND (POTENTIAL). 3 INNER MEMBRANE-BOUND. 23 INNER MEMBRANE. 1 INNER NUCLEAR MEMBRANE, AS WELL AS IN THE NUCLEAR ENVELOPE/ENDOPLASMIC RETICULUM NETWORK. 1 INNER NUCLEAR MEMBRANE-ASSOCIATED. IT IS A COMPONENT OF THE SPINDLE ENVELOPE DURING EARLY MITOTIC CYCLES. 11 INNER SIDE OF THE MEMBRANE (BY SIMILARITY). 5 INNER SIDE OF THE MEMBRANE. 1 INNER SURFACE OF CELL MEMBRANE. 2 INNER SURFACE OF CYTOPLASMIC BRIDGES OR RING CANALS PRESENT IN EGG CHAMBERS. 1 INNER SURFACE OF PLASMA MEMBRANE (BY SIMILARITY). 5 INNER SURFACE OF PLASMA MEMBRANE POSSIBLY WITH ATTACHMENT REQUIRING ACYLATION OF THE C-TERMINAL CYSTEINE (BY SIMILARITY WITH RAS). 3 INNER SURFACE OF PLASMA MEMBRANE. 1 INNERMOST PORTION OF THE DESMOSOMAL PLAQUE. 1 INTEGRAL AND SURFACE EXPOSED MEMBRANE PROTEIN THAT LOCALIZES TO THE MEMBRANE AT THE ATTACHMENT ORGANELLE (BY SIMILARITY). 1 INTEGRAL AND SURFACE EXPOSED MEMBRANE PROTEIN THAT LOCALIZES TO THE MEMBRANE AT THE ATTACHMENT ORGANELLE. 48 INTEGRAL MEMBRANE PROTEIN (BY SIMILARITY). 1 INTEGRAL MEMBRANE PROTEIN (ISOFORMS ALPHA-1 AND BETA-1); TYPE I MEMBRANE PROTEIN (OTHER ISOFORMS) (POTENTIAL). 1586 INTEGRAL MEMBRANE PROTEIN (POTENTIAL). 1 INTEGRAL MEMBRANE PROTEIN (POTENTIAL). MITOCHONDRION AND ENDOPLASMIC RETICULUM. 238 INTEGRAL MEMBRANE PROTEIN (PROBABLE). 1 INTEGRAL MEMBRANE PROTEIN ALSO ATTACHED TO THE PLASMA MEMBRANE BY A GPI-ANCHOR. PREFERENTIALLY LOCALIZED IN SOME ACTIN-RICH MEMBRANE STRUCTURES. MUST SPAN THE PLASMA MEMBRANE, PROBABLY VIA BETA-STRANDS. 15 INTEGRAL MEMBRANE PROTEIN WITH AN EXTERNALLY PROTUDING N-TERMINAL DOMAIN. 1 INTEGRAL MEMBRANE PROTEIN, CONTRACTILE VACUOLE COMPLEX. 1 INTEGRAL MEMBRANE PROTEIN, INTRACELLULAR ORGANELLES. 2689 INTEGRAL MEMBRANE PROTEIN. 2 INTEGRAL MEMBRANE PROTEIN. CHLOROPLAST (PROBABLE). 17 INTEGRAL MEMBRANE PROTEIN. CHLOROPLAST THYLAKOID MEMBRANE (PROBABLE). 93 INTEGRAL MEMBRANE PROTEIN. CHLOROPLAST THYLAKOID MEMBRANE. 1 INTEGRAL MEMBRANE PROTEIN. CHLOROPLAST THYLAKOID MEMBRANE; ASSOCIATED WITH THE STROMAL SIDE OF THE THYLAKOID MEMBRANE. 6 INTEGRAL MEMBRANE PROTEIN. CHLOROPLAST. 3 INTEGRAL MEMBRANE PROTEIN. COATED VESICLE. 1 INTEGRAL MEMBRANE PROTEIN. CONTAINS 11 TO 12 POTENTIAL TRANSMEMBRANE DOMAINS. 12 INTEGRAL MEMBRANE PROTEIN. CONTAINS 12 POTENTIAL TRANSMEMBRANE DOMAINS. 4 INTEGRAL MEMBRANE PROTEIN. CONTAINS 13 OR 14 POTENTIAL TRANSMEMBRANE DOMAINS. 2 INTEGRAL MEMBRANE PROTEIN. CONTAINS 14 POTENTIAL TRANSMEMBRANE DOMAINS. 1 INTEGRAL MEMBRANE PROTEIN. CONTAINS 15 POTENTIAL TRANSMEMBRANE DOMAINS. 1 INTEGRAL MEMBRANE PROTEIN. CONTAINS 19 POTENTIAL TRANSMEMBRANE REGIONS. 3 INTEGRAL MEMBRANE PROTEIN. CONTAINS 3 POTENTIAL TRANSMEMBRANE DOMAINS. 1 INTEGRAL MEMBRANE PROTEIN. CONTAINS 4 POTENTIAL TRANSMEMBRANE DOMAINS. 1 INTEGRAL MEMBRANE PROTEIN. CONTAINS 5 OR 6 POTENTIAL TRANSMEMBRANE DOMAINS. 3 INTEGRAL MEMBRANE PROTEIN. CONTAINS 5 POTENTIAL TRANSMEMBRANE DOMAINS. 1 INTEGRAL MEMBRANE PROTEIN. CONTAINS 6 POTENTIAL TRANSMEMBRANE DOMAINS. 4 INTEGRAL MEMBRANE PROTEIN. CONTAINS 7 POTENTIAL TRANSMEMBRANE REGIONS (POTENTIAL). 18 INTEGRAL MEMBRANE PROTEIN. CONTAINS 8 POTENTIAL TRANSMEMBRANE DOMAINS. 2 INTEGRAL MEMBRANE PROTEIN. CONTAINS TWO DOMAINS WITH 6 POTENTIAL TRANSMEMBRANE REGIONS EACH. 2 INTEGRAL MEMBRANE PROTEIN. CONTAINS TWO POTENTIAL TRANSMEMBRANE DOMAINS. 4 INTEGRAL MEMBRANE PROTEIN. CONTAINS UP TO 7 POTENTIAL TRANSMEMBRANE DOMAINS (PROBABLE). 7 INTEGRAL MEMBRANE PROTEIN. CYANELLE THYLAKOID MEMBRANE. 19 INTEGRAL MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM (BY SIMILARITY). 7 INTEGRAL MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM (POTENTIAL). 13 INTEGRAL MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM (PROBABLE). 1 INTEGRAL MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM AND MITOCHONDRIAL INNER MEMBRANE. 3 INTEGRAL MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM AND PEROXISOMES. 1 INTEGRAL MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM DERIVED VESICLES. 61 INTEGRAL MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM. 3 INTEGRAL MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM. ALSO IN MITOCHONDRION AND PLASTID MEMBRANES. 1 INTEGRAL MEMBRANE PROTEIN. ENDOSOME. 1 INTEGRAL MEMBRANE PROTEIN. GOLGI (PROBABLE). 2 INTEGRAL MEMBRANE PROTEIN. GOLGI STACK. 1 INTEGRAL MEMBRANE PROTEIN. IN THE BASOLATERAL MEMBRANE OF INTERCALATED CELLS OF DISTAL TUBULES AND COLLECTING DUCTS. 1 INTEGRAL MEMBRANE PROTEIN. INNER AND OUTER MEMBRANES (BY SIMILARITY). 1 INTEGRAL MEMBRANE PROTEIN. INNER AND OUTER MEMBRANES. 75 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE (BY SIMILARITY). 299 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE (POTENTIAL). 153 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE (PROBABLE). 321 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE. 3 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE. (BY SIMILARITY). 13 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE. (POTENTIAL). 3 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE. A SUBSTANTIAL PORTION OF IT PROTRUDES INTO THE PERIPLASMIC SPACE. 1 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE. CONTAINS 10 POTENTIAL TRANSMEMBRANE DOMAINS. 1 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE. CONTAINS 11 TO 12 POTENTIAL TRANSMEMBRANE DOMAINS. 1 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE. CONTAINS 6 POTENTIAL TRANSMEMBRANE DOMAINS (POTENTIAL). 1 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE. CONTAINS AT LEAST SIX POTENTIAL TRANSMEMBRANE DOMAINS. 1 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE. CONTAINS SEVERAL POTENTIAL TRANSMEMBRANE DOMAINS (POTENTIAL). 2 INTEGRAL MEMBRANE PROTEIN. INNER MEMBRANE. CONTAINS SIX POTENTIAL TRANSMEMBRANE DOMAINS (POTENTIAL). 1 INTEGRAL MEMBRANE PROTEIN. IT MAY BE INSERTED IN THE MEMBRANE OF A SUBCELLULAR COMPARTMENT. 1 INTEGRAL MEMBRANE PROTEIN. LOCALIZED AT THE FLAGELLUM-BEARING POLE OF THE SWARMER CELL. 2 INTEGRAL MEMBRANE PROTEIN. LOCATED IN ZONES OF CONTACT BETWEEN THE INNER AND OUTER MEMBRANE OF THE CHLOROPLAST (BY SIMILARITY). 6 INTEGRAL MEMBRANE PROTEIN. LOCATED IN ZONES OF CONTACT BETWEEN THE INNER AND OUTER MEMBRANE OF THE CHLOROPLAST. 2 INTEGRAL MEMBRANE PROTEIN. LYSOSOMAL. 1 INTEGRAL MEMBRANE PROTEIN. MAY BE LOCATED IN THE FLAGELLAR POCKET OF THE MEMBRANE. 2 INTEGRAL MEMBRANE PROTEIN. MICROSOMAL VESICLES. 2 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIA (POTENTIAL). 1 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIAL (POTENTIAL). 18 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIAL INNER MEMBRANE (BY SIMILARITY). 25 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIAL INNER MEMBRANE (POTENTIAL). 336 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIAL INNER MEMBRANE. 104 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIAL INNER MEMBRANE. CONTAINS 12 POTENTIAL TRANSMEMBRANE DOMAINS. 1 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIAL OR PEROXISOMAL. 1 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIAL OUTER MEMBRANE (BY SIMILARITY). 3 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIAL OUTER MEMBRANE (POTENTIAL). 1 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIAL OUTER MEMBRANE-ANCHORED (POSSIBLE). 11 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIAL OUTER MEMBRANE. 3 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIAL. 1 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRIAL. (POTENTIAL). 3 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRION (POTENTIAL). 1 INTEGRAL MEMBRANE PROTEIN. MITOCHONDRION (PROBABLE). 1 INTEGRAL MEMBRANE PROTEIN. MYELOID MEMBRANE. 1 INTEGRAL MEMBRANE PROTEIN. NUCLEAR ENVELOPE. LOCALIZATION TO THE ER IS ALSO POSSIBLE. 39 INTEGRAL MEMBRANE PROTEIN. OUTER MEMBRANE (BY SIMILARITY). 6 INTEGRAL MEMBRANE PROTEIN. OUTER MEMBRANE (POTENTIAL). 1 INTEGRAL MEMBRANE PROTEIN. OUTER MEMBRANE (PROBABLE). 1 INTEGRAL MEMBRANE PROTEIN. OUTER MEMBRANE SURROUNDING THE FORESPORE PROTOPLAST (PROBABLE). 107 INTEGRAL MEMBRANE PROTEIN. OUTER MEMBRANE. 1 INTEGRAL MEMBRANE PROTEIN. OUTER MEMBRANE. CONTAINS SEVERAL POTENTIAL TRANSMEMBRANE DOMAINS. 5 INTEGRAL MEMBRANE PROTEIN. OUTER MEMBRANE. SPANS THE MEMBRANE 18 TIMES (BY SIMILARITY). 2 INTEGRAL MEMBRANE PROTEIN. OUTER MEMBRANE. SPANS THE MEMBRANE 18 TIMES. 1 INTEGRAL MEMBRANE PROTEIN. PERIBACTEROID MEMBRANE. 3 INTEGRAL MEMBRANE PROTEIN. PEROXISOMAL (BY SIMILARITY). 4 INTEGRAL MEMBRANE PROTEIN. PEROXISOMAL (POTENTIAL). 2 INTEGRAL MEMBRANE PROTEIN. PEROXISOMAL (PROBABLE). 27 INTEGRAL MEMBRANE PROTEIN. PEROXISOMAL. 6 INTEGRAL MEMBRANE PROTEIN. PLASMA MEMBRANE. 1 INTEGRAL MEMBRANE PROTEIN. POLAR SEPTUM (BY SIMILARITY). 1 INTEGRAL MEMBRANE PROTEIN. POLAR SEPTUM. 6 INTEGRAL MEMBRANE PROTEIN. SARCOPLASMIC AND ENDOPLASMIC RETICULUM. 4 INTEGRAL MEMBRANE PROTEIN. SARCOPLASMIC RETICULUM. 1 INTEGRAL MEMBRANE PROTEIN. SURFACE OF THE VIRAL ENVELOPE. 1 INTEGRAL MEMBRANE PROTEIN. SYNAPTIC VESICLES (BY SIMILARITY). 10 INTEGRAL MEMBRANE PROTEIN. SYNAPTIC VESICLES. 22 INTEGRAL MEMBRANE PROTEIN. THYLAKOID MEMBRANE. 1 INTEGRAL MEMBRANE PROTEIN. VACUOLAR (POTENTIAL). 1 INTEGRAL MEMBRANE PROTEIN. VACUOLAR (TONOPLAST). 1 INTEGRAL MEMBRANE PROTEIN. VACUOLAR MEMBRANE. 1 INTEGRAL MEMBRANE PROTEIN. VACUOLAR MEMBRANES (TONOPLASTS). 36 INTEGRAL MEMBRANE PROTEIN. VACUOLAR. 5 INTEGRAL MEMBRANE PROTEIN. VESICULAR MEMBRANE. 1 INTEGRAL MEMBRANE PROTEIN; CHLOROPLAST (PROBABLE). 4 INTEGRAL MEMBRANE PROTEIN; MITOCHONDRIAL (POTENTIAL). 2 INTEGRAL MEMBRANE PROTEIN; SECRETORY VESICLES CONTAINING CATECHOLAMINES AND AMIDATED PEPTIDES (BY SIMILARITY). 1 INTEGRAL MEMBRANE PROTEIN; SECRETORY VESICLES CONTAINING CATECHOLAMINES AND AMIDATED PEPTIDES. 1 INTEGRAL MEMBRANE. INNER MEMBRANE (POTENTIAL). 2 INTEGRAL NUCLEAR MEMBRANE PROTEIN (BY SIMILARITY). 3 INTEGRAL NUCLEAR MEMBRANE PROTEIN. 1 INTEGRAL PART OF THE PERIBACTEROID MEMBRANE, A COMPARTMENT ESSENTIAL FOR EFFECTIVE SYMBIOTIC NITROGEN FIXATION. 1 INTERCELLULAR SPACE OF INFECTED PLANTS. 20 INTERNAL PROTEIN OF VIRUS PARTICLE. 1 INTERPHOTORECEPTOR CELL MATRIX. 8 INTERPHOTORECEPTOR MATRIX THAT PERMEATES THE SPACE BETWEEN THE RETINA AND THE CONTIGUOUS LAYER OF PIGMENT EPITHELIUM CELLS. 1 INTRACELLULAR ACROSOMAL COMPARTMENT OF SPERM. 2 INTRACELLULAR AND ASSOCIATED WITH CELL SURFACE RECEPTORS (BY SIMILARITY). 1 INTRACELLULAR AND ASSOCIATED WITH CELL SURFACE RECEPTORS. 1 INTRACELLULAR AND PERIPHERALLY ASSOCIATED WITH THE INNER LEAFLET OF THE CELL MEMBRANE, USING A FATTY ACID LINKAGE. 1 INTRACELLULAR, BUT EXTRAVACUOLAR. 1 INTRACELLULAR, CLOSE TO THE CELL PERIPHERY. 3 INTRACELLULAR. 2 INTRACYTOPLASMIC MEMBRANE. 5 INTRANUCLEAR AND CYTOPLASMIC (BY SIMILARITY). 1 INTRANUCLEAR AND CYTOPLASMIC. 4 INTRANUCLEAR AND CYTOPLASMIC; ALMOST COMPLETELY IN NUCLEUS IN CELLS EXPOSED TO HEAT SHOCK OR 10% DIMETHYL SULFOXIDE. 1 INTRINSIC COMPONENT OF THE INNER-MEMBRANE OF MITOCHONDRIA. 3 IONICALLY BOUND TO THE CELL WALL. 1 IS PRESENT PREDOMINANTLY IN THE CYTOPLASM, BUT IS ALSO FOUND IN SMALL QUANTITIES IN THE NUCLEUS. 1 ISOFORMS WITH HYDROPHOBIC N-TERMINUS ARE THOUGHT TO BE MEMBRANE ANCHORED. SHORTEST FORMS, LACKING THE HYDROPHOBIC STRETCH, MAY BE SOLUBLE CYTOPLASMIC PROTEINS. 3 IT CAN INTERCONVERT BETWEEN AN INACTIVE CYTOSOLIC FORM AND AN ACTIVE MEMBRANE-BOUND FORM (BY SIMILARITY). 1 IT CAN INTERCONVERT BETWEEN AN INACTIVE CYTOSOLIC FORM AND AN ACTIVE MEMBRANE-BOUND FORM. 1 IT IS BOUND TO THE MITOCHONDRIAL INNER MEMBRANE IN EUKARYOTIC CELLS WITH ITS ACTIVE SITE ON THE MATRIX SIDE OF THE MEMBRANE. 1 IT IS INCORPORATED INTO THE WALL OF THE SPERMATOPHORE. 1 IT IS NOT KNOWN WHETHER CHEA IS ACTUALLY MEMBRANE BOUND ALTHOUGH CHEA HAS TWO REGIONS AT THE C-TERMINAL END WITH THE POTENTIAL TO BE TRANSMEMBRANE REGIONS. 1 IT MAY BE ASSOCIATED WITH THE CYTOSKELETON OR IT MAY BE CYTOPLASMIC. 6 ITS DISTRIBUTION APPEARS TO BE DYNAMIC. IT IS PROBABLY A CYCLING RECEPTOR FOUND MAINLY IN THE CYTOPLASM AND AS WELL ASSOCIATED TO THE PEROXISOMAL MEMBRANE THROUGH A DOCKING FACTOR (PEX13). 1 ITS IMPLICATION IN LYSIS SUGGESTS THAT IT FUNCTION IN THE PERIPLASM. 1 JUNCTIONAL SKELETAL SARCOPLASMIC RETICULUM, PROBABLY BY ASSOCIATION WITH PHOSPHOLIPIDS AND/OR OTHER PROTEINS. 1 KERATINOUS MITOCHONDRIAL CAPSULE. 1 L- AND S-GRANULES. 16 LARGELY EMBEDDED IN THE LIPID BILAYER. 1 LINKED TO THE MEMBRANE OF THE NEURONAL CHOLINERGIC SYNAPSES BY A GPI-ANCHOR (BY SIMILARITY). 2 LINKED TO THE MEMBRANE OF THE NEURONAL CHOLINERGIC SYNAPSES BY A GPI-ANCHOR. 2 LOCALIZED IN GRANULES FROM WHERE IT MAY BE SECRETED OR TRANSPORTED TO OTHER LOCATIONS IN THE CELL (BY SIMILARITY). 1 LOCALIZED IN GRANULES FROM WHERE IT MAY BE SECRETED OR TRANSPORTED TO OTHER LOCATIONS IN THE CELL. 1 LOCALIZED IN THE CELL WALL OF CORTICAL AND TRANSMITTING TISSUE CELLS OF POLLINATED MATURE STYLES. 2 LOCALIZED IN THE NUCLEUS AND AT ITS PERIPHERY. 7 LOCALIZED IN THE SECRETION GRANULES. 1 LOCALIZED THROUGHOUT THE CELL BUT IS MORE CONCENTRATED AT THE NUCLEUS. 1 LOCALIZED TO A MESHWORK OF CYTOPLASMIC FIBRES AROUND THE NUCLEUS. TRANSLOCATES TO THE NUCLEUS AFTER THERMAL STRESS. 1 LOCALIZED TO THE CLEAVAGE FURROW OF DIVIDING CELLS DURING CYTOKINESIS AND TO THE INTERCELLULAR BRIDGE CONNECTING POSTMITOTIC DAUGHTER CELLS. EQUALLY FOUND ON THE CELL SURFACES OF THE EMBRYONIC CENTRAL NERVOUS SYSTEM AND ON THE APICAL MEMBRANES OF DEVELOPING PHOTORECEPTOR CELLS IN THE EYE IMAGINAL DISC. 2 LOCALIZED TO VESICLES OR GRANULES WITHIN OVA OF ALL STAGES. 1 LOCALIZES A SHARP PATCH AT THE SHMOO TIP (MATING PROJECTION) WHICH IS THE SITE OF POLARIZED CELL GROWTH. 1 LOCALIZES NEAR THE SITE OF CELL FUSION. 2 LOCALIZES SPECIFICALLY TO THE ATTACHMENT MEMBRANE (BY SIMILARITY). 2 LOCALIZES SPECIFICALLY TO THE ATTACHMENT MEMBRANE. 1 LOCALIZES TO ADHERENS JUNCTIONS. 1 LOCATED IN A FIXED POSITION CLOSE TO THE PLASMA MEMBRANE. 1 LOCATED IN DENSE GRANULES OF TACHYZOITES. 1 LOCATED IN DENSE GRANULES OF TACHYZOITES. UPON INFECTION, ASSOCIATES WITH THE PARASITOPHOROUS VACUOLAR MEMBRANE (PVM). 1 LOCATED IN DENSE GRANULES OF TACHYZOITES. UPON INFECTION, SECRETED INTO THE CYST AND THE PARASITOPHOROUS VACUOLE (PV). 2 LOCATED IN DENSE GRANULES OF TACHYZOITES. UPON INFECTION, SECRETED INTO THE PARASITOPHOROUS VACUOLE (PV) AND TARGETED TO THE MICROVILLUS MEMBRANOUS NETWORK. 1 LOCATED IN DENSE GRANULES OF TACHYZOITES. UPON INFECTION, SECRETED INTO THE PARASITOPHOROUS VACUOLE (PV). 1 LOCATED IN DENSE GRANULES OF TACHYZOITES. UPON INFECTION, SECRETED, IN A CA2+-DEPENDENT MANNER, INTO THE PARASITOPHOROUS VACUOLE (PV) AND TARGETED TO THE MICROVILLUS MEMBRANOUS NETWORK. 4 LOCATED IN OR ALONG THE K88 FIMBRIAL STRUCTURE. 1 LOCATED IN THE LUMEN AND EPITHELIUM OF DISTAL DUCTUS EFFERENTES AND EPIDIDYMAL DUCTS, AND ON THE POSTACROSOMAL REGION OF THE SPERM HEAD. 1 LOCATED ON FIBRES WHICH CONNECT THE MICROTUBULES OF THE MEMBRANE SKELETON WITH THE FLAGELLUM. 1 LOCATED ON THE WALL OF THE APPRESSORIUM. 1 LOCATED PREFERENTIALLY IN THE CILIARY ROOTLET AND BASAL BODY OF THE CONNECTING CILIUM OF PHOTORECEPTOR CELLS, AND IN THE ROUGH ENDOPLASMIC RETICULUM. ALSO SECRETED. 1 LOOSELY ASSOCIATED WITH THE CYTOPLASMIC SIDE OF THE INNER MEMBRANE. 1 LOOSELY BOUND TO THE CYTOPLASMIC MEMBRANE (BY SIMILARITY). 3 LOOSELY BOUND TO THE CYTOPLASMIC MEMBRANE OFTEN OCCURRING IN VESICLES ASSOCIATED WITH FUMARATE REDUCTASE (BY SIMILARITY). 3 LOOSELY BOUND TO THE CYTOPLASMIC MEMBRANE OFTEN OCCURRING IN VESICLES ASSOCIATED WITH FUMARATE REDUCTASE. 1 LOOSELY BOUND TO THE CYTOPLASMIC MEMBRANE. 3 LOOSELY BOUND TO THE INNER SURFACE OF THE THYLAKOID MEMBRANE (BY SIMILARITY). 1 LOOSELY BOUND TO THE INNER SURFACE OF THE THYLAKOID MEMBRANE. 2 LOOSELY BOUND TO THE INNER THYLAKOID MEMBRANE SURFACE IN CHLOROPLASTS AND/OR IN THE LUMEN. 28 LOOSELY BOUND TO THE INNER THYLAKOID MEMBRANE SURFACE IN CHLOROPLASTS. 12 LUMEN OF THE THYLAKOID MEMBRANE. 1 LUMEN SIDE OF THE THYLAKOID MEMBRANE (BY SIMILARITY). 1 LUMEN SIDE OF THE THYLAKOID MEMBRANE. 1 LUMENAL SURFACE OF THYLAKOID MEMBRANE. 3 LYSOSOMAL (BY SIMILARITY). 6 LYSOSOMAL (POTENTIAL). 1 LYSOSOMAL (PROBABLE). 9 LYSOSOMAL (PROBABLE); MATRIX OF EOSINOPHIL'S LARGE SPECIFIC GRANULE. 2 LYSOSOMAL, MEMBRANE BOUND. 111 LYSOSOMAL. 3 LYSOSOME-LIKE VACUOLES (POTENTIAL). 8 LYSOSOME-LIKE VACUOLES. 1 MAIN PEPTIDE FROM THE SUBOESOPHAGEAL GANGLIA. 1 MAINLY CYTOSOLIC. PRESENT TO A SMALL EXTENT IN THE MITOCHONDRIAL FRACTION. 2 MAINLY IN MITOCHONDRION, BUT ALSO IN ENDOPLASMIC RETICULUM AND NUCLEAR ENVELOPE. 1 MAINLY LOCALIZED AT THE PERIPHERY OF THE NUCLEUS (BY SIMILARITY). 1 MAINLY LOCALIZED AT THE PERIPHERY OF THE NUCLEUS. 4 MAJOR PROTEIN COMPONENT OF THE LUMEN OF THE ACROSOME GRANULE. 4 MAJOR TEGUMENT PROTEIN OF THE VIRIONS. 1 MAST CELL GRANULES (BY SIMILARITY). 2 MAST CELL GRANULES. 5 MATRIX AND CYTOPLASMIC SIDE OF THE MITOCHONDRIAL INNER MEMBRANE (BY SIMILARITY). 22 MATRIX AND CYTOPLASMIC SIDE OF THE MITOCHONDRIAL INNER MEMBRANE. 3 MATRIX OF EOSINOPHIL'S LARGE SPECIFIC GRANULE (BY SIMILARITY). 3 MATRIX OF EOSINOPHIL'S LARGE SPECIFIC GRANULE (CRYSTALLOID CORE) (BY SIMILARITY). 3 MATRIX OF EOSINOPHIL'S LARGE SPECIFIC GRANULE (CRYSTALLOID CORE). 5 MATRIX OF EOSINOPHIL'S LARGE SPECIFIC GRANULE. 4 MATRIX SIDE OF THE INNER MITOCHONDRIAL MEMBRANE. 15 MATRIX SIDE OF THE MITOCHONDRIAL INNER MEMBRANE. 2 MAY BE A CELL WALL PROTEIN (BY SIMILARITY). 4 MAY BE A CELL WALL PROTEIN. 1 MAY BE A CYTOSKELETAL PROTEIN. 3 MAY BE ATTACHED TO THE MEMBRANE BY A SIGNAL-ANCHOR (BY SIMILARITY). 2 MAY BE ATTACHED TO THE MEMBRANE BY A SIGNAL-ANCHOR. 5 MAY BE BOUND TO THE THYLAKOID MEMBRANE OR ANCHORED TO THE THYLAKOID-BOUND PHYCOBILISOMES. 1 MAY BE LINKED TO CELLS BY COVALENT LINKAGES THROUGH SOME SIDE CHAINS. 1 MAY BE MEMBRANE-ASSOCIATED THROUGH ITS N- TERMINUS DOMAIN. 1 MAY BE PERIPHERALLY ASSOCIATED WITH THE INNER MITOCHONDRIAL MEMBRANE. 1 MAY BE SECRETED BY A NON-CLASSICAL SECRETORY PATHWAY (BY SIMILARITY). 2 MAY BE SECRETED BY A NON-CLASSICAL SECRETORY PATHWAY. 1 MAY BE SECRETED OR MEMBRANE ASSOCIATED VIA A NON-CATALYTIC SUBUNIT (BY SIMILARITY). 1 MAY BE SECRETED OR MEMBRANE ASSOCIATED VIA A NON-CATALYTIC SUBUNIT. 2 MAY LOOSELY ASSOCIATE WITH THE MEMBRANE THROUGH ITS INTERACTION WITH THE MEMBRANE-BOUND PNUC. IN COMBINATION WITH COREPRESSOR (NAD?), THE CYTOPLASMIC FORM OF NADR WOULD BE CAPABLE OF ACTING AS A TRANSCRIPTIONAL REPRESSOR. 1 MAY NOT BE ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR. 1 MEDIAN BODY. 1 MEMBRANE (BY SIMILARITY). 2 MEMBRANE (POTENTIAL). 4 MEMBRANE (PROBABLE). 2 MEMBRANE ANCHORED (POTENTIAL). 1 MEMBRANE ASSOCIATED (BY SIMILARITY). 6 MEMBRANE ASSOCIATED (POTENTIAL). 4 MEMBRANE ASSOCIATED. 2 MEMBRANE ASSOCIATED. SARCOPLASMIC RETICULUM. 1 MEMBRANE BOUND IN CISTERNAE OF ROUGH ENDOPLASMIC RETICULUM (BY SIMILARITY). 6 MEMBRANE BOUND IN CISTERNAE OF ROUGH ENDOPLASMIC RETICULUM. 1 MEMBRANE BOUND LOCATED AT THE INNER FACE OF THE CYTOPLASMIC MEMBRANE (BY SIMILARITY). 1 MEMBRANE BOUND LOCATED AT THE INNER FACE OF THE CYTOPLASMIC MEMBRANE. 3 MEMBRANE BOUND ON MICROSOMES. 1 MEMBRANE BOUND OR EXTRACELLULAR. 9 MEMBRANE PROTEIN OF CAVEOLAE. POTENTIAL HAIRPIN-LIKE STRUCTURE IN THE MEMBRANE (BY SIMILARITY). 3 MEMBRANE PROTEIN OF CAVEOLAE. POTENTIAL HAIRPIN-LIKE STRUCTURE IN THE MEMBRANE. 4 MEMBRANE- AND CYTOSKELETON-ASSOCIATED. 5 MEMBRANE-ANCHORED. PERIPLASMIC (POTENTIAL). 32 MEMBRANE-ASSOCIATED (BY SIMILARITY). 64 MEMBRANE-ASSOCIATED (POTENTIAL). 5 MEMBRANE-ASSOCIATED (PROBABLE). 2 MEMBRANE-ASSOCIATED IN POLYMORPHONUCLEAR LEUKOCYTES (PMN) GRANULES (BY SIMILARITY). 1 MEMBRANE-ASSOCIATED IN POLYMORPHONUCLEAR LEUKOCYTES (PMN) GRANULES. 1 MEMBRANE-ASSOCIATED ON THE CYTOPLASMIC SIDE OF EITHER THE GOLGI COMPLEX OR AN INTERMEDIATE IN GOLGI TO VACUOLE TRANSPORT. 1 MEMBRANE-ASSOCIATED OR ASSOCIATED TO A COMPLEX THAT COFRACTIONATES WITH PLASMA MEMBRANE. 3 MEMBRANE-ASSOCIATED OR SECRETED (POTENTIAL). 8 MEMBRANE-ASSOCIATED OR TRANSMEMBRANE PROTEIN (POTENTIAL). 2 MEMBRANE-ASSOCIATED PROTEIN THAT RESIDES ALMOST COMPLETELY WITHIN THE PERIPLASM. 1 MEMBRANE-ASSOCIATED, HAS NO MEMBRANE- SPANNING REGIONS (BY SIMILARITY). 1 MEMBRANE-ASSOCIATED, HAS NO MEMBRANE- SPANNING REGIONS. 1 MEMBRANE-ASSOCIATED, WITH EPITOPES EXPOSED AT THE CELL SURFACE (PROBABLE). 93 MEMBRANE-ASSOCIATED. 1 MEMBRANE-ASSOCIATED. IS NOT SECRETED AND PROBABLY LOCALIZED IN THE ENDOPLASMIC RETICULUM. 1 MEMBRANE-ASSOCIATED. MAY BE RELEASED INTO THE MEDIUM. 15 MEMBRANE-ASSOCIATED. MICROSOMAL MEMBRANE. 1 MEMBRANE-ASSOCIATED. OUTER FORESPORE MEMBRANE. 1 MEMBRANE-ASSOCIATED. PEROXISOMAL (POTENTIAL). 1 MEMBRANE-ASSOCIATED. PRIMARILY ON GOLGI AND VESICLE MEMBRANES. 1 MEMBRANE-ASSOCIATED; ENDOPLASMIC RETICULUM. 1 MEMBRANE-ASSOCIATED; SECRETORY PATHWAY VESICLES. 3 MEMBRANE-BOUND (BY SIMILARITY). 33 MEMBRANE-BOUND (POTENTIAL). 18 MEMBRANE-BOUND (PROBABLE). 6 MEMBRANE-BOUND, FACING THE PERIPLASMIC SPACE (POTENTIAL). 186 MEMBRANE-BOUND. 2 MEMBRANE-BOUND. ENDOPLASMIC RETICULUM (BY SIMILARITY). 12 MEMBRANE-BOUND. ENDOPLASMIC RETICULUM (POTENTIAL). 172 MEMBRANE-BOUND. ENDOPLASMIC RETICULUM. 1 MEMBRANE-BOUND. NUCLEAR ENVELOPE. 1 MEMBRANE-BOUND. SECRETED AFTER CLEAVAGE OF ITS C-TERMINUS. 2 MEMBRANE-BOUND; PERIPLASMIC SIDE. 2 MEMBRANE-ENCLOSED CRYSTALS (ESTEROSOME). 19 MEMBRANE. 1 MEMBRANES OF OUTER SEGMENT. 2 MEMBRANES OF VARIOUS INTRACELLULAR ACIDIC COMPARTMENTS. 2 MICRORIBBONS OF VENTRAL DISC. 3 MICROSOMAL (BY SIMILARITY). 6 MICROSOMAL (POTENTIAL). 2 MICROSOMAL AND MITOCHONDRIAL OUTER MEMBRANE (BY SIMILARITY). 1 MICROSOMAL AND MITOCHONDRIAL OUTER MEMBRANE. 2 MICROSOMAL AND OUTER MITOCHONDRIAL MEMBRANES; MEMBRANE-BOUND. 1 MICROSOMAL FRACTION (BY SIMILARITY). 1 MICROSOMAL FRACTION. 6 MICROSOMAL INTRACELLULAR MEMBRANE. 2 MICROSOMAL MEMBRANE (LIVER FORM). BOUND TO THE CYTOPLASMIC SIDE OF THE ENDOPLASMIC RETICULUM. OR CYTOPLASMIC (ERYTHROCYTE FORM). 10 MICROSOMAL MEMBRANE, LUMEN OF ENDOPLASMIC RETICULUM. 1 MICROSOMAL MEMBRANE. 8 MICROSOMAL MEMBRANE. BOUND TO THE CYTOPLASMIC SIDE OF THE ENDOPLASMIC RETICULUM (BY SIMILARITY). 6 MICROSOMAL MEMBRANE. BOUND TO THE CYTOPLASMIC SIDE OF THE ENDOPLASMIC RETICULUM. 3 MICROSOMAL MEMBRANE. THE SEQUENCE SHOWS SEVERAL MEMBRANE-SPANNING DOMAINS THAT COULD SERVE TO ANCHOR THE PROTEIN IN THE MICROSOMAL MEMBRANE. 86 MICROSOMAL. 1 MICROSOMAL; MEMBRANE-BOUND (POTENTIAL). 1 MICROSOMES (POTENTIAL). 1 MICROSOMES AND PLASMA MEMBRANE VESICLES. 1 MICROSOMES, ENDOPLASMIC RETICULUM LUMEN. 5 MICROSOMES, OUTER MITOCHONDRIAL MEMBRANE AND PEROXISOMAL MEMBRANE. 9 MICROTUBULE-ASSOCIATED. 2 MICROVILLAR PERIPHERAL MEMBRANE PROTEIN (CYTOPLASMIC SIDE). 26 MITOCHONDRIAL (BY SIMILARITY). 1 MITOCHONDRIAL (IN LIVER) AND CYTOPLASMIC (IN UROPYGIAL GLAND). 1 MITOCHONDRIAL (POSSIBLE). 34 MITOCHONDRIAL (POTENTIAL). 13 MITOCHONDRIAL (PROBABLE). 1 MITOCHONDRIAL AMD CYTOPLASMIC. 1 MITOCHONDRIAL AND ALSO POSSIBLY ENDOPLASMIC RETICULUM. 2 MITOCHONDRIAL AND CYTOPLASMIC (BY SIMILARITY). 11 MITOCHONDRIAL AND CYTOPLASMIC. 1 MITOCHONDRIAL AND EXTRAMITOCHONDRIAL. 1 MITOCHONDRIAL AND IN NUCLEAR/CYTOPLASMIC COMPARTMENTS. 1 MITOCHONDRIAL AND PROBABLY ALSO IN NUCLEUS. 1 MITOCHONDRIAL INNER AND OUTER MEMBRANES, AS WELL AS NUCLEAR ENVELOPE AND ENDOPLASMIC RETICULUM (BY SIMILARITY). 3 MITOCHONDRIAL INNER AND OUTER MEMBRANES, AS WELL AS NUCLEAR ENVELOPE AND ENDOPLASMIC RETICULUM. 9 MITOCHONDRIAL INNER MEMBRANE (BY SIMILARITY). 6 MITOCHONDRIAL INNER MEMBRANE (POTENTIAL). 1 MITOCHONDRIAL INNER MEMBRANE (PROBABLE). 150 MITOCHONDRIAL INNER MEMBRANE. 1 MITOCHONDRIAL INNER MEMBRANE. IMPORTATION INTO MITOCHONDRION IS MEMBRANE POTENTIAL DEPENDENT. 1 MITOCHONDRIAL INNER MEMBRANE. PARTIALLY EXPOSED TO THE INTERMEMBRANE SPACE (BY SIMILARITY). 1 MITOCHONDRIAL INNER MEMBRANE. PARTIALLY EXPOSED TO THE INTERMEMBRANE SPACE. 1 MITOCHONDRIAL INNER MEMBRANE. PERIPLASMIC SIDE (BY SIMILARITY). 4 MITOCHONDRIAL INNER MEMBRANE; MATRIX SIDE (BY SIMILARITY). 48 MITOCHONDRIAL INNER MEMBRANE; MATRIX SIDE. 1 MITOCHONDRIAL INNER MEMBRANE; MATRIX SIDE. THE IMPORT OF THIS SUBUNIT IS DEPENDENT ON PROTEINACEOUS COMPONENTS OF THE MITOCHONDRIAL OUTER MEMBRANE. 1 MITOCHONDRIAL INNER MEMBRANE; OUTER SIDE (BY SIMILARITY). 8 MITOCHONDRIAL INNER MEMBRANE; OUTER SIDE. 14 MITOCHONDRIAL INTER MEMBRANE SPACE. 1 MITOCHONDRIAL INTERMEMBRANE SPACE AND ALSO CYTOPLASMIC. 6 MITOCHONDRIAL INTERMEMBRANE SPACE. 1 MITOCHONDRIAL MATRIX (>90%) AND PEROXISOMAL. 34 MITOCHONDRIAL MATRIX (BY SIMILARITY). 1 MITOCHONDRIAL MATRIX (INDUCED ON GLUCAGON ADMINISTRATION) AND PEROXISOMES (NOT EFFECTED BY GLUCAGON). 20 MITOCHONDRIAL MATRIX (POTENTIAL). 2 MITOCHONDRIAL MATRIX (PROBABLE). 1 MITOCHONDRIAL MATRIX AND CYTOPLASMIC CYTOSKELETON. 1 MITOCHONDRIAL MATRIX AND PEROXISOMAL. 413 MITOCHONDRIAL MATRIX. 1 MITOCHONDRIAL MATRIX. DETECTED ALSO IN THE NUCLEUS AFTER HEAT-SHOCK. 1 MITOCHONDRIAL MEMBRANE (BY SIMILARITY). 1 MITOCHONDRIAL MEMBRANE-ASSOCIATED. 12 MITOCHONDRIAL MEMBRANE. 1 MITOCHONDRIAL MEMBRANE. ANOTHER POSSIBILITY EXISTS THAT IT IS ASSOCIATED WITH ANOTHER UNIDENTIFIED MEMBRANE THAT HAS BEEN ENRICHED IN THE MITOCHONDRIAL MEMBRANE FRACTIONS. 3 MITOCHONDRIAL MEMBRANES AND PERINUCLEAR ENVELOPE (BY SIMILARITY). 1 MITOCHONDRIAL MEMBRANES AND PERINUCLEAR ENVELOPE FOR BCL-X(L). CYTOPLASMIC FOR BCL-X(DELTA-TM). 1 MITOCHONDRIAL OUTER MEMBRANE (POTENTIAL). 23 MITOCHONDRIAL OUTER MEMBRANE. 2 MITOCHONDRIAL TRANSMEMBRANE SPACE OR MATRIX (POTENTIAL). 1 MITOCHONDRIAL, CYTOPLASMIC AND NUCLEAR. 1 MITOCHONDRIAL, EITHER AS A CONSTITUENT OF THE MATRIX, OR IN TENOUS ASSOCIATION WITH THE INTERNAL SIDE OF THE INNER MEMBRANE. 1 MITOCHONDRIAL, INNER MEMBRANE. 1 MITOCHONDRIAL, NUCLEAR, AND CYTOPLASMIC. 14 MITOCHONDRIAL, POSSIBLY IN THE INNER SURFACE OF THE INNER MITOCHONDRIAL MEMBRANE. 454 MITOCHONDRIAL. 1 MITOCHONDRIAL. ASSOCIATED WITH THE INNER MEMBRANE. 1 MITOCHONDRIAL. INNER MEMBRANE-ASSOCIATED. 1 MITOCHONDRIAL. INNER-MEMBRANE. 1 MITOCHONDRIAL. MAY ALSO BE PRESENT IN THE CYTOSOL. 2 MITOCHONDRIAL. MEMBRANE-ASSOCIATED (POTENTIAL). 1 MITOCHONDRIAL. PROBABLY FOUND ALSO IN THE NUCLEUS. 1 MITOCHONDRIAL. THE ENZYME EXISTS IN TWO FORMS A MEMBRANE BOUND FORM (P34) ON THE OUTER MEMBRANE OF THE MITOCHONDRION, AND IN SOLUBLE FORM (P32) IN THE INTER-MEMBRANE SPACE. 3 MITOCHONDRIAL; INNER MEMBRANE ASSOCIATED (BY SIMILARITY). 3 MITOCHONDRIAL; INNER MEMBRANE ASSOCIATED. 3 MITOCHONDRIAL; INTEGRAL MEMBRANE PROTEIN. 1 MITOCHONDRION. 5 MITOSIS IN THE SLIME MOLD PLASMODIUM DIFFERS FROM THE PROCESS IN MANY EUKARYOTES. THE TUBULIN CHAINS MUST BE TRANSPORTED TO THE NUCLEI FOR INTRANUCLEAR ASSEMBLY OF THE SPINDLE. 1 MORE CONCENTRATED IN POLYRIBOSOMES THAN IN MONORIBOSOMES, AND PREFERENTIALLY LOCALIZED IN THE LARGE SUBUNIT. 2 MOST ABUNDANT COMPONENT OF THE VIRAL ENVELOPE. 2 MOST LIKELY IN THE EDGES OF THE VENTRAL DISK MICRORIBBONS. 1 MOST OF ITS ACTIVITY IS MEMBRANE-ASSOCIATED. 1 MOST OF THE ENZYME IS SECRETED, BUT A SIGNIFICANT AMOUNT OF CHITINASE IS ALSO FOUND ASSOCIATED WITH THE CELL WALL THROUGH BINDING OF C-TERMINAL DOMAIN TO CHITIN. 1 MOSTLY CYTOPLASMIC BUT, IN LESS DIFFERENTIATED CELLS OCCASIONALLY NUCLEAR. 1 MOSTLY CYTOPLASMIC DURING PREGNANCY, WHEREAS IT BECOMES PREDOMINANTLY NUCLEAR DURING EARLY LACTATION; TRANSLOCATED INTO THE NUCLEUS IN RESPONSE TO PHOSPHORYLATION (BY SIMILARITY). 8 MOSTLY PERIPLASMIC; ANCHORED IN THE INNER MEMBRANE (POTENTIAL). 1 MUCOSAL SURFACE PROTEIN. 1 MUCOSAL SURFACE PROTEIN. PRESENT IN THE SECRETIONS OF THE AIRWAYS, THE GASTROINTESTINAL AND THE UROGENITAL TRACTS. 2 NASCENT ACROSOMAL VESICLE OF GOLGI PHASE SPERMATIDS. 18 NEUROENDOCRINE AND ENDOCRINE SECRETORY GRANULES. 1 NEUROMUSCULAR JUNCTION. 2 NOT KNOWN. 1 NOT SECRETED, BUT PROBABLY REMAINS ATTACHED OR ASSOCIATED WITH THE CELL WALL. 1 NSIDE THE SPORES. 168 NUCLEAR (BY SIMILARITY). 1 NUCLEAR (FOLLOWING IFN TREATMENT). 1 NUCLEAR (MAINLY). 6 NUCLEAR (POSSIBLE). 612 NUCLEAR (POTENTIAL). 523 NUCLEAR (PROBABLE). 1 NUCLEAR (TDT-S) OR CYTOPLASMIC (TDT-L). 1 NUCLEAR AND ALSO CYTOPLASMIC, ASSOCIATED WITH THE PLASMA MEMBRANE OF FILIPODIA IN PROCESS-GROWING CELLS, AND ALSO DEPOSITED INTO THE SUBSTRATE-ATTACHED MATERIAL. 1 NUCLEAR AND CENTROSOMAL. 3 NUCLEAR AND CYTOPLASMIC (BY SIMILARITY). 1 NUCLEAR AND CYTOPLASMIC (POSSIBLE). 1 NUCLEAR AND CYTOPLASMIC, DIFFUSELY DISTRIBUTED IN THE CYTOSOL (BY SIMILARITY). 1 NUCLEAR AND CYTOPLASMIC, DIFFUSELY DISTRIBUTED IN THE CYTOSOL. 51 NUCLEAR AND CYTOPLASMIC. 1 NUCLEAR AND CYTOPLASMIC. IT IS POSSIBLE THAT SOME ISOFORMS ARE FOUND ONLY IN ONE OF THESE LOCATIONS. 1 NUCLEAR AND CYTOPLASMIC. MAY BE SECRETED BY A NON-CLASSICAL SECRETORY PATHWAY. 1 NUCLEAR AND KINETOPLAST. 1 NUCLEAR AND MICROSOMAL. INTEGRAL MEMBRANE PROTEIN. 1 NUCLEAR AND MITOCHONDRIAL (BY SIMILARITY). 3 NUCLEAR AND MITOCHONDRIAL. 1 NUCLEAR AND MITOCHONDRION. 3 NUCLEAR AND/OR CYTOPLASMIC. 1 NUCLEAR AT SPECIFIC PERIODS OF THE DAY. FIRST ACCUMULATES IN THE PERINUCLEAR REGION ABOUT ONE HOUR BEFORE TRANSLOCATION INTO THE NUCLEUS. INTERACTION WITH TIM IS REQUIRED FOR NUCLEAR LOCALIZATION. 1 NUCLEAR COILED BODY LOCATED IN THE INTERCHROMATIN SPACE BETWEEN THE NUCLEOLUS AND THE NUCLEUS. 2 NUCLEAR ENVELOPE INNER MEMBRANE. 1 NUCLEAR IN G1, BUT CYTOPLASMIC IN S, G2, AND M CELL CYCLE PHASES. 1 NUCLEAR IN S-PHASE CELLS. 74 NUCLEAR MATRIX-ASSOCIATED. 3 NUCLEAR MATRIX. 1 NUCLEAR OR CYTOPLASMIC (BY SIMILARITY). 1 NUCLEAR OR CYTOPLASMIC. 1 NUCLEAR OR PERINUCLEAR (PROBABLE). 1 NUCLEAR PERIPHERY. 2 NUCLEAR PORE COMPLEX (POTENTIAL). 22 NUCLEAR PORE COMPLEX. 2 NUCLEAR PORE COMPLEX. CYTOPLASMIC FILAMENTS. 2 NUCLEAR PORE COMPLEX. LOCATED TO THE TERMINAL RING STRUCTURE OF THE NUCLEOPLASMIC CAGE. 1 NUCLEAR PORE COMPLEX. NUCLEOPLASMIC. 1 NUCLEAR PORE. NUCLEOPLASMIC AND CYTOPLASMIC PERIPHERAL MEMBRANE PROTEIN. IN MITOSIS, ASSUMES A DIFFUSE CYTOPLASMIC DISTRIBUTION PROBABLY AS A MONOMER, BEFORE REVERSING BACK INTO A PUNCTATE NUCLEAR SURFACE LOCALIZATION AT THE END OF MITOSIS. 3 NUCLEAR PROTEIN THAT ACCUMULATES IN THE NUCLEOLI. 1 NUCLEAR PROTEIN. 2 NUCLEAR, AND CYTOPLASMIC. 2 NUCLEAR, ASSOCIATES WITH THE ACTIN CYTOSKELETON (POTENTIAL). 1 NUCLEAR, ASSOCIATES WITH THE ACTIN CYTOSKELETON. 1 NUCLEAR, BINDS TO THE SPLICEOSOME. 1 NUCLEAR, BUT ALSO FOUND IN THE CYTOPLASM IN AN INACTIVE FORM COMPLEXED TO AN INHIBITOR (I-KAPPA-B) (BY SIMILARITY). 9 NUCLEAR, BUT ALSO FOUND IN THE CYTOPLASM IN AN INACTIVE FORM COMPLEXED TO AN INHIBITOR (I-KAPPA-B). 1 NUCLEAR, CENTROMERIC. 1 NUCLEAR, CHROMATIN ASSOCIATED. 1 NUCLEAR, CONCENTRATED ALONG THE SHORT METAPHASE SPINDLE. 1 NUCLEAR, CYTOPLASMIC AND SECRETED. NUCLEAR GCAP39 REDISTRIBUTES THROUGHOUT THE CYTOPLASM DURING MITOSIS AND IS EXCLUDED FROM REGIONS CONTAINING CHROMOSOMES. 1 NUCLEAR, EXHIBITS DIFFUSE STAINING THROUGHOUT (EXCLUDING NUCLEOLI), TOGETHER WITH A SMALL NUMBER OF INTENSELY STAINED FOCAL POINTS, OR GRANULES, AND PUNCTATE STAINING ALONG THE NUCLEAR ENVELOPE. 1 NUCLEAR, FORMS PART OF THE SPLICEOSOME. 1 NUCLEAR, MOSTLY. 1 NUCLEAR, POSSIBLY LINKED TO CENTROMERE. 1 NUCLEAR, THOUGH SOME AUTHORS STATE THAT IT IS PROBABLY CYTOPLASMIC. 1 NUCLEAR, WHERE IT IS ASSOCIATED WITH THE ACTIVE ECDYSONE-REGULATED LOCI ON POLYTENE CHROMOSOMES, AND ON SOME HEAT SHOCK-INDUCED PUFFS. ITS DISTRIBUTION PATTERN FOLLOWS THE CHANGES OF PUFFING PATTERNS IN THE DEVELOPMENTAL PROGRAM, OR FOLLOWING HEAT SHOCK. 2792 NUCLEAR. 1 NUCLEAR. (POTENTIAL). 9 NUCLEAR. ACCUMULATES IN INFECTED CELLS. 1 NUCLEAR. ACCUMULATES IN INFECTED CELLS. _ADECC STANDARD; PRT; 454 AA. 5 NUCLEAR. ASSOCIATED WITH THE NUCLEAR MATRIX. 2 NUCLEAR. COLOCALIZED WITH METHYL-CPG IN THE GENOME. 2 NUCLEAR. COLOCALIZES WITH TELOMERIC DNA IN METAPHASE CELLS AND IS LOCATED AT CHROMOSOME ENDS DURING METAPHASE. 1 NUCLEAR. CYTOPLASMIC IN ADENOMAS AND CARCINOMAS. 2 NUCLEAR. DURING CHROMOSOME ASSEMBLY IN MITOTIC EXTRACTS, XCAP-C/E WAS RECRUITED TO THE CHROMATIN AND FORMED A DISCRETE INTERNAL STRUCTURE WITHIN ASSEMBLED CHROMOSOMES. 13 NUCLEAR. FIRST ACCUMULATES IN THE PERINUCLEAR REGION ABOUT AN HOUR BEFORE IT IS TRANSPORTED TO THE NUCLEUS. 1 NUCLEAR. FREE IN THE NUCLEOPLASM, SOMEWHAT ASSOCIATED WITH THE CHROMATIN AND HARDLY, IF AT ALL ASSOCIATED WITH THE NUCLEAR MATRIX. 1 NUCLEAR. GENERALLY NUCLEOLAR, BUT IS TRANSLOCATED TO THE NUCLEOPLASM IN CASE OF SERUM STARVATION OR TREATMENT WITH ANTICANCER DRUGS (BY SIMILARITY). 3 NUCLEAR. GENERALLY NUCLEOLAR, BUT IS TRANSLOCATED TO THE NUCLEOPLASM IN CASE OF SERUM STARVATION OR TREATMENT WITH ANTICANCER DRUGS. 3 NUCLEAR. IN THE ABSENCE OF DNA REPLICATION, FOUND IN THE NUCLEAR FRAMEWORK-ASSOCIATED STRUCTURES (PREREPLICATIVE SITES); AS VIRAL DNA REPLICATION PROCEEDS, IT MIGRATES TO GLOBULAR INTRANUCLEAR STRUCTURES (REPLICATION COMPARTMENTS). 1 NUCLEAR. IN TRIPARTITE SEGMENTS OF SYNAPTONEMAL COMPLEXES, BETWEEN LATERAL ELEMENTS IN THE NUCLEUS. FOUND ONLY WHERE THE CHROMOSOME CORES ARE SYNAPSED. ITS N-TERMINUS IS FOUND TOWARDS THE CENTRE OF THE SYNAPTONEMAL COMPLEX WHILE THE C- TERMINUS EXTENDS WELL INTO THE LATERAL DOMAIN OF THE SYNAPTONEMAL COMPLEX. 2 NUCLEAR. IN TRIPARTITE SEGMENTS OF SYNAPTONEMAL COMPLEXES, BETWEEN LATERAL ELEMENTS IN THE NUCLEUS. FOUND ONLY WHERE THE CHROMOSOME CORES ARE SYNAPSED. ITS N-TERMINUS IS FOUND TOWARDS THE CENTRE OF THE SYNAPTONEMAL COMPLEX WHILE THE C-TERMINUS EXTENDS WELL INTO THE LATERAL DOMAIN OF THE SYNAPTONEMAL COMPLEX (BY SIMILARITY). 1 NUCLEAR. IN TRIPARTITE SEGMENTS OF SYNAPTONEMAL COMPLEXES, BETWEEN LATERAL ELEMENTS IN THE NUCLEUS. FOUND ONLY WHERE THE CHROMOSOME CORES ARE SYNAPSED. ITS N-TERMINUS IS FOUND TOWARDS THE CENTRE OF THE SYNAPTONEMAL COMPLEX WHILE THE C-TERMINUS EXTENDS WELL INTO THE LATERAL DOMAIN OF THE SYNAPTONEMAL COMPLEX. 1 NUCLEAR. IN TRIPARTITE SEGMENTS OF SYNAPTONEMAL COMPLEXES, IRRESPECTIVE OF WHETHER THESE ARE SYNAPSED OR UNSYNAPSED (BY SIMILARITY). 1 NUCLEAR. IN TRIPARTITE SEGMENTS OF SYNAPTONEMAL COMPLEXES, IRRESPECTIVE OF WHETHER THESE ARE SYNAPSED OR UNSYNAPSED. 1 NUCLEAR. INITIALLY ASSOCIATES WITH BOTH CENTROSOMES OF THE MITOTIC SPINDLE. RAPIDLY DISAPPEARS FROM THE CENTROSOME DESTINED FOR THE SOMATIC DAUGHTER AND PERSISTS IN THE CENTROSOME OF THE DAUGHTER THAT BECOMES THE NEXT GERMLINE BLASTOMERE. 1 NUCLEAR. IS PRESENT IN THE SPINDLE POLE BODY. 1 NUCLEAR. IS RESTRICTED TO THE NUCLEUS IN INTERPHASE, REMAINS TIGHTLY BOUND TO THE CHROMOSOMES UNTIL EARLY METAPHASE, AND DURING LATE METAPHASE GETS CONCENTRATED IN LINEAR ARRAYS THAT TRANSECT THE METAPHASE PLATE BETWEEN THE CHROMOSOMES. AS ANAPHASE BEGINS TO MOVE TO THE SPINDLE MIDZONE WHERE IT IS INTIMATELY ASSOCIATED WITH THE BUNDLED MICROTUBULES. LATER IN ANAPHASE GETS CLOSELY ASSOCIATED WITH THE CELL CORTEX, AND BY TELOPHASE IS CONCENTRATED AT EACH SIDE OF THE MIDBODY IN THE INTERCELLULAR BRIDGE, WITH WHICH IT IS DISCARDED AFTER. 1 NUCLEAR. IT IS PRESENT IN EARLY UNPAIRED CORES, IN THE LATERAL DOMAINS OF THE SYNAPTONEMAL COMPLEX AND IN THE CHROMOSOME CORES WHEN THEY SEPARATE AT DIPLOTENE. IT IS FOUND AXIAL TO THE METAPHASE I CHROMOSOMES AND IN ASSOCIATION WITH PAIRS OF SISTER CENTROMERES. THE CENTROMERE-ASSOCIATED COR1 PROTEIN BECOMES DISSOCIATED FROM THE CENTROMERES AT ANAPHASE II AND IS NOT FOUND IN MITOTIC METAPHASE CENTROMERES. 1 NUCLEAR. LOCALIZED PREDOMINANTLY AT THE NUCLEAR PORE COMPLEXES. 1 NUCLEAR. LOCATED ALONG THE ENTIRE LENGTH OF THE CHROMATID ARM AXIS. 1 NUCLEAR. MOBILIZED FROM THE CYTOPLASM TO THE NUCLEUS AS MITOSIS IS COMPLETED. REMAINS IN THE NUCLEUS UNTIL THE INITIATION OF THE NEXT ROUND OF REPLICATION. 1 NUCLEAR. PARTICULARLY ABUNDANT IN THE NUCLEOLUS. 1 NUCLEAR. PREDOMINANTLY LOCALIZED IN THE G1 PHASE IN THE PERINUCLEOLAR REGION, IN THE LATER PHASES IT IS ALSO DETECTED THROUGHOUT THE NUCLEAR INTERIOR, BEING PREDOMINANTLY LOCALIZED IN THE NUCLEAR MATRIX. IN MITOSIS, IT IS PRESENT ON ALL CHROMOSOMES. 1 NUCLEAR. PREFERENTIALLY ACCUMULATE IN DAUGHTER CELL NUCLEI AT THE END OF ANAPHASE. 1 NUCLEAR. PRIMARILY NUCLEAR,, BUT SIGNIFICANT AMOUNTS ARE PRESENT IN THE CYTOPLASM. 5 NUCLEAR. SHUTTLES CONTINUOUSLY BETWEEN THE NUCLEUS AND THE CYTOPLASM ALONG WITH MRNA. COMPONENT OF RIBONUCLEOSOMES. 1 NUCLEAR. _ADECC STANDARD; PRT; 563 AA. 51 NUCLEAR; ACCUMULATES IN THE NUCLEOLI. 1 NUCLEAR; ASSOCIATED WITH BOUNDARIES OF TRANSCRIPTIONALLY ACTIVE CHROMATIN. 4 NUCLEAR; BECOMES DISPERSED THROUGHOUT THE CYTOPLASM DURING MITOSIS. 3 NUCLEAR; COMPONENT OF RIBONUCLEOSOMES (BY SIMILARITY). 9 NUCLEAR; COMPONENT OF RIBONUCLEOSOMES. 2 NUCLEAR; FIBRILLAR REGION OF THE NUCLEOLUS (BY SIMILARITY). 9 NUCLEAR; FIBRILLAR REGION OF THE NUCLEOLUS. 3 NUCLEAR; GENERALLY LOCATED IN THE NUCLEOPLASM. 2 NUCLEAR; IN PLANT HOST CELL. 1 NUCLEAR; IN THE PROMINENT NUCLEUS OF OOCYTES. 1 NUCLEAR; INTEGRAL MEMBRANE IN THE NUCLEAR PORE. 1 NUCLEAR; LOCALIZED TO THE PERINUCLEAR REGION OF SPERM. 1 NUCLEAR; LOCALIZES TO THE TIP OF SHMOO PROJECTIONS AND TO THE TIP OF BUDDING CELLS IN A CELL-CYCLE DEPENDENT MANNER. 8 NUCLEAR; MACRONUCLEI. 1 NUCLEAR; MACRONUCLEUS. 1 NUCLEAR; MICRONUCLEI. 1 NUCLEAR; MLE IS ASSOCIATED WITH HUNDREDS OF DISCRETE SITES ALONG THE LENGTH OF THE X CHROMOSOME IN MALES AND NOT IN FEMALES, AND IS ASSOCIATED WITH 30-40 AUTOSOMAL SITES IN BOTH SEXES. 1 NUCLEAR; MSL-1 IS ASSOCIATED WITH HUNDREDS OF DISCRETE SITES ALONG THE LENGTH OF THE X CHROMOSOME IN MALES AND NOT IN FEMALES, AND IS ALSO ASSOCIATED WITH 10-20 AUTOSOMAL SITES IN MALES. 1 NUCLEAR; MSL-3 IS ASSOCIATED WITH HUNDREDS OF DISCRETE SITES ALONG THE LENGTH OF THE X CHROMOSOME IN MALES AND NOT IN FEMALES, AND IS ALSO ASSOCIATED WITH 10-20 AUTOSOMAL SITES IN MALES. 6 NUCLEAR; NUCLEOLAR (BY SIMILARITY). 2 NUCLEAR; NUCLEOLAR (POTENTIAL). 64 NUCLEAR; NUCLEOLAR. 2 NUCLEAR; NUCLEOLAR. INTEGRAL MEMBRANE PROTEIN. 1 NUCLEAR; NUCLEOLAR. LOCALIZED UNIFORMLY THROUGHOUT THE GRANULAR COMPONENT OF THE NUCLEOLUS. 22 NUCLEAR; NUCLEOLUS. 7 NUCLEAR; NUCLEOPLASM. 4 NUCLEAR; NUCLEUS OF INFECTED CELLS. 1 NUCLEAR; NUCLEUS. 1 NUCLEAR; POSSIBLY AT THE NUCLEOLUS. 1 NUCLEAR; PREDOMINANTLY, BUT ALSO PRESENT IN THE CYTOPLASM. 4 NUCLEAR; SPECKLED SUBNUCLEAR COMPARTMENT (BY SIMILARITY). 2 NUCLEAR; SPECKLED SUBNUCLEAR COMPARTMENT. 1 NUCLEAR; SPHERE ORGANELLES. 1 NUCLEAR; TIGHTLY ASSOCIATED WITH THE NUCLEUS. IT IS PRESENT IN A GRANULAR PATTERN THAT EXCLUDES THE NUCLEOLUS. 5 NUCLEAR; TRANSLOCATED INTO THE NUCLEUS IN RESPONSE TO PHOSPHORYLATION (BY SIMILARITY). 12 NUCLEAR; TRANSLOCATED INTO THE NUCLEUS IN RESPONSE TO PHOSPHORYLATION. 1 NUCLEI OF FERTILIZED EGGS AND MITOTIC APPARATUS OF DIVIDING EGGS. 5 NUCLEOCAPSID. 11 NUCLEOPLASMIC SIDE OF THE INNER NUCLEAR MEMBRANE. 1 NUCLEUS AND CYTOPLASM OF THE INFECTED CELLS. 1 NUCLEUS OF INFECTED CELLS (BY SIMILARITY). _VACCC STANDARD; PRT; 891 AA. 10 NUCLEUS OF INFECTED CELLS. 3 OCCURS IN TWO FORMS CYTOSOLIC (S-COMT), AND MEMBRANE-BOUND (MB-COMT TYPE II MEMBRANE PROTEIN). 1 OCCURS IN TWO FORMS CYTOSOLIC (S-COMT), AND MEMBRANE-BOUND (MB-COMT). 1 ON CROWN-LIKE CELL SURFACE PROJECTIONS. 1 ON THE ENDOPLASMIC RETICULUM AND ON VESICLES WHICH BUD FROM IT. 1 ON THE FIBROUS MATRIX STRUCTURE OF THE PREMELANOSOME. 2 ON THE INNER MEMBRANE OF THE HOST SHORTLY AFTER INFECTION. 4 ON THE LUMENAL SURFACE OF THE THYLAKOID MEMBRANE. 4 ON THIN FILAMENTS IN SMOOTH MUSCLE AND ON STRESS FIBERS IN FIBROBLASTS (NONMUSCLE) (BY SIMILARITY). 1 ON THIN FILAMENTS IN SMOOTH MUSCLE AND ON STRESS FIBERS IN FIBROBLASTS (NONMUSCLE). 4 OUTER AND INNER SEGMENTS OF THE ROD CELLS. 43 OUTER CAPSID. 1 OUTER LAYER OF THE COAT MATRIX AND INTERSPORE MATRIX. 9 OUTER MEMBRANE (BY SIMILARITY). 23 OUTER MEMBRANE (POTENTIAL). 11 OUTER MEMBRANE (PROBABLE). 1 OUTER MEMBRANE AND SECRETED. 1 OUTER MEMBRANE ASSOCIATED. 1 OUTER MEMBRANE SURROUNDING THE FORESPORE PROTOPLAST (PROBABLE). 3 OUTER MEMBRANE-ASSOCIATED. 1 OUTER MEMBRANE-BOUND. 120 OUTER MEMBRANE. 1 OUTER MEMBRANE. ASSOCIATED TO THE MEMBRANE THROUGH ITS C-TERMINAL. 4 OUTER MEMBRANE; ONE OF THE VERY FEW ENZYMES LOCATED THERE. 1 OUTER MITOCHONDRIAL MEMBRANE (POTENTIAL). 1 OUTER MITOCHONDRIAL MEMBRANE. 1 OUTER SURFACE OF ENDOSPORE. 5 OUTER SURFACE. 2 OUTER-MEMBRANE ASSOCIATED AND SECRETED. 1 OUTER-MEMBRANE ASSOCIATED OR SECRETED (BY SIMILARITY). 1 OUTSIDE OF THE PERIPLASMIC MEMBRANE. 1 OUTSIDE THE MITOCHONDRIAL INNER MEMBRANE ON THE MATRIX SIDE (POTENTIAL). 1 P59-HCK AND P56-HCK ARE ASSOCIATED WITH MEMBRANES. P59-HCK IS ALSO CYTOPLASMIC. 1 P60-HCK AND P59-HCK ARE ASSOCIATED WITH MEMBRANES. P60-HCK IS ALSO CYTOPLASMIC (BY SIMILARITY). 4 PACKAGED WITHIN SECRETORY VESICLES. 6 PARASITOPHOROUS VACUOLE. 2 PARTIALLY MEMBRANE-ASSOCIATED (POTENTIAL). 2 PERIBACTEROID MEMBRANE (POTENTIAL). 2 PERIBACTEROID MEMBRANE OR PERIBACTEROID SPACE (POTENTIAL). 1 PERIBACTEROID MEMBRANES (POTENTIAL). 1 PERIBACTEROID SPACE. 1 PERIPHERAL CYTOPLASM. 1 PERIPHERAL CYTOPLASMIC PROTEIN THAT IS TIGHTLY BOUND TO GOLGI MEMBRANES. 5 PERIPHERAL MEMBRANE PROTEIN ASSOCIATED WITH THE CYTOPLASMIC ASPECT OF THE SARCOLEMMA. 1 PERIPHERAL MEMBRANE PROTEIN ON THE CYTOPLASMIC FACE OF THE HOST ERYTHROCYTE MEMBRANE. 1 PERIPHERAL MEMBRANE PROTEIN, PEROXISOME. 8 PERIPHERAL MEMBRANE PROTEIN. 7 PERIPHERAL MEMBRANE. 1 PERIPHERAL MEMBRANE. CYTOPLASMIC SIDE. MOVEMENT OF ZO-1 FROM THE CYTOPLASM TO MEMBRANE IS AN EARLY EVENT OCCURRING CONCURRENTLY WITH CELL-CELL CONTACT (BY SIMILARITY). 1 PERIPHERAL MEMBRANE. CYTOPLASMIC SIDE. MOVEMENT OF ZO-1 FROM THE CYTOPLASM TO MEMBRANE IS AN EARLY EVENT OCCURRING CONCURRENTLY WITH CELL-CELL CONTACT. 1 PERIPHERALLY ASSOCIATED WITH THE CYTOPLASMIC FACE OF A LATE GOLGI OR VESICLE COMPARTMENT. 1 PERIPHERALLY BOUND ELEMENT OF THE CYTOSKELETON OR VACUOLE (POTENTIAL). 2 PERIPHERALLY BOUND TO THE INNER SIDE OF THE INNER MEMBRANE VIA THE TRKG AND TRKH PROTEINS. 1 PERIPHERY OF THE RODS OF THE PHYCOBILISOME (BY SIMILARITY). 33 PERIPHERY OF THE RODS OF THE PHYCOBILISOME. 63 PERIPLASMIC (BY SIMILARITY). 1 PERIPLASMIC (PLCR1) AND CYTOPLASMIC (PLCR2). 3 PERIPLASMIC (POSSIBLE). 111 PERIPLASMIC (POTENTIAL). 52 PERIPLASMIC (PROBABLE). 1 PERIPLASMIC AND CYTOPLASMIC. AN RNASE I-LIKE FORM (PERIPLASMIC) AND RNASE I*-LIKE FORM (CYTOPLASMIC) APPEAR TO BE ISOFORMS APPARENTLY ENCODED BY THE SAME GENE. THE CYTOPLASMIC FORM IS LESS ACTIVE TOWARDS NATURAL POLYMER RNA. 1 PERIPLASMIC AND CYTOPLASMIC. RNASE I (PERIPLASMIC) AND RNASE I* (CYTOPLASMIC) APPEAR TO BE ISOFORMS APPARENTLY ENCODED BY THE SAME GENE. THE CYTOPLASMIC FORM IS LESS ACTIVE TOWARDS NATURAL POLYMER RNA. 15 PERIPLASMIC FLAGELLUM. 1 PERIPLASMIC OR LOOSELY ATTACHED TO THE CYTOPLASMIC OR THE OUTER MEMBRANE. 1 PERIPLASMIC OR SECRETED. 4 PERIPLASMIC, BUT ASSOCIATED WITH INNER MEMBRANE. 317 PERIPLASMIC. 7 PERIPLASMIC. ANCHORED TO THE CYTOPLASMIC MEMBRANE VIA ITS N-TERMINAL SIGNAL-LIKE SEQUENCE, SPANS THE PERIPLASM (BY SIMILARITY). 6 PERIPLASMIC. ANCHORED TO THE CYTOPLASMIC MEMBRANE VIA ITS N-TERMINAL SIGNAL-LIKE SEQUENCE, SPANS THE PERIPLASM. 1 PERIPLASMIC. THE PERIPLASM MAY REPRESENT A RESERVOIR FOR THE PROTEIN, IT WOULD BE RELEASED AT A LATER STAGE DURING THE INFECTION CYCLE. 1 PERIPLASMIC. TIGHTLY ASSOCIATED WITH THE MUREIN SACCULUS. 9 PEROXISOMAL (BY SIMILARITY). 22 PEROXISOMAL (POTENTIAL). 1 PEROXISOMAL (PROBABLE). 2 PEROXISOMAL AND CYTOPLASMIC. 13 PEROXISOMAL AND GLYOXYSOMAL (BY SIMILARITY). 2 PEROXISOMAL AND GLYOXYSOMAL (POTENTIAL). 1 PEROXISOMAL AND GLYOXYSOMAL. 1 PEROXISOMAL AND IN MITOCHONDRIAL INNER MEMBRANE; INNER SIDE (BY SIMILARITY). 1 PEROXISOMAL AND IN MITOCHONDRIAL INNER MEMBRANE; INNER SIDE. 1 PEROXISOMAL MATRIX AND AT THE PEROXISOMAL PERIPHERAL MEMBRANE. 5 PEROXISOMAL MEMBRANE-ASSOCIATED. 2 PEROXISOMAL MEMBRANE-ASSOCIATED. OUTER FACE. 1 PEROXISOMAL OR CYTOPLASMIC. 1 PEROXISOMAL, ATTACHED TO THE OUTER SURFACE. 1 PEROXISOMAL, LOOSELY ATTACHED TO THE OUTER SURFACE. 98 PEROXISOMAL. 1 PEROXISOMAL. EXCEPT IN SOME PH1 PATIENTS WHERE AGT IS FOUND IN THE MITOCHONDRIAL MATRIX. TO BE MISTARGETED AGT MUST HAVE BOTH THE LEU-11 AND ARG-170 VARIANTS. 2 PEROXISOMAL; MATRIX (POTENTIAL). 1 PEROXISOMAL; MATRIX. 2 PEROXISOMAL; MEMBRANE-ASSOCIATED (POTENTIAL). 4 PEROXISOMAL; MEMBRANE-ASSOCIATED. 3 PILI STRUCTURE ON THE CELL SURFACE. 1 PLASMA MEMBRANE AND EARLY ENDOSOMES. 1 PLASMA MEMBRANE OF THE RENAL INTERCALATED CELLS. 1 PLASMA MEMBRANE OR OUTER MEMBRANE OF MITOCHONDRIA. 1 PLASMA MEMBRANE-ASSOCIATED. 37 PLASMA MEMBRANE-BOUND. 11 PLASMA MEMBRANE. 1 PLASMA-MEMBRANE BOUND. 1 POLE PLASM. 3 POSSIBLY ASSOCIATED WITH, AND ANCHORED TO, THE CYTOPLASMIC SIDE OF THE MEMBRANE. 1 POSSIBLY MEMBRANE-ANCHORED. 1 POSSIBLY MEMBRANE-SPANNING. 117 POSSIBLY SECRETED AND ASSOCIATES WITH THE EXTRACELLULAR MATRIX. 1 POSSIBLY SURFACE OF PHOTORECEPTOR CELL. 1 POSSIBLY THE CELL WALL OR VACUOLE. 2 POSSIBLY THE OUTER CAPSID. 1 POST-SYNAPTIC DENSITIES OF DENDRITES, AND IN THE PRE-SYNAPTIC NERVE TERMINAL AT NEUROMUSCULAR JUNCTIONS. 1 PRECEREBELLIN MIGHT BE BOUND TO, OR ASSOCIATED WITH, A MEMBRANE. 1 PREDOMINANTLY CYTOPLASMIC (BY SIMILARITY). 1 PREDOMINANTLY CYTOPLASMIC, ALSO PERINUCLEAR. 1 PREDOMINANTLY CYTOPLASMIC. 1 PREDOMINANTLY FOUND ON THE VESICLE- AND TUBULE-LIKE STRUCTURES WITHIN THE CYTOPLASM. 1 PREDOMINANTLY LOCATED AT THE TIP OF THE FIMBRIAE. 1 PREDOMINANTLY NUCLEAR. 4 PREDOMINANTLY SECRETED, BUT A SMALL AMOUNT OF MATURE GP57-65 IS ANCHORED IN THE PLASMA MEMBRANE OR HELD BY OTHER INTERACTIONS. 2 PRESENT AT THE BUD NECK DURING CELL DIVISION (BY SIMILARITY). 4 PRESENT AT THE BUD NECK DURING CELL DIVISION. 1 PRESENT IN CHROMAFFIN GRANULES. 3 PRESENT IN THE CYTOPLASMIC MEMBRANE AND IS ALSO FOUND IN THE PERIPLASM (BY SIMILARITY). 2 PRESENT IN THE CYTOPLASMIC MEMBRANE AND IS ALSO FOUND IN THE PERIPLASM. 1 PRESENTS A NGF-DEPENDENT PATTERN OF INTRACELLULAR LOCALIZATION. WITH INCREASING AMOUNTS OF NGF AND BESIDES BEING EXPRESSED IN THE CYTOPLASM, IT IS ALSO LOCALIZED IN THE PLASMA MEMBRANE (INNER SIDE) AT THE ONSET OF NGF- INDUCED DIFFERENTIATION, FROM WHERE IT DISAPPEARS TO REAPPEAR IN THE NUCLEI OF DIFFERENTIATED CELLS. 2 PRIMARILY FOUND WITHIN PROTEIN BODIES OF THE COTYLEDONARY PARENCHYMA CELLS WITH LESSER AMOUNTS WITHIN THE PROCAMBIUM (BY SIMILARITY). 1 PRIMARILY FOUND WITHIN PROTEIN BODIES OF THE COTYLEDONARY PARENCHYMA CELLS, WITH LESSER AMOUNTS WITHIN THE PROCAMBIUM. 1 PRIMARILY LOCALIZED TO THE NUCLEUS AND, DURING CYTOKINESIS, TO THE PHRAGMOPLAST, A SITE WHERE MEMBRANE VESICLES ARE TARGETED IN THE DEPOSITION OF NEW CELL WALL MATERIALS. 1 PRIMARILY WITHIN NUCLEUS. 1 PROBABLE EXTERNAL VIRAL STRUCTURAL PROTEIN. 1 PROBABLE MEMBRANE-ANCHORED PROTEIN. 3 PROBABLE PERIPHERAL MEMBRANE PROTEIN LOCALIZED ON THE INNER FACE OF THE CYTOPLASMIC MEMBRANE (BY SIMILARITY). 2 PROBABLE PERIPHERAL MEMBRANE PROTEIN LOCALIZED ON THE INNER FACE OF THE CYTOPLASMIC MEMBRANE. 2 PROBABLY A PERIPHERAL PROTEIN. 1 PROBABLY A PHOSPHORYLATED MATRIX PROTEIN. 1 PROBABLY IN THE PARASITOPHOROUS VACUOLE. 3 PROBABLY LOCATED ON THE CYTOPLASMIC FACE OF THE MEMBRANE WHERE IT ASSOCIATES WITH COMPONENTS OF THE MEMBRANE SKELETON. 1 PROBABLY THE EXTERNAL SIDE OF THE CELL WALL. 1 PRODUCED AS A CELL-ASSOCIATED INACTIVE PRECURSOR WHICH IS NOT SECRETED EXTRACELLULARLY. THE TOXIN IS CONVERTED INTO ITS ACTIVE FORM BY THE ACTION OF PROTEASES CONCOMITANTLY WITH CELL LYSIS AND IS RELEASED INTO THE MEDIUM. 4 PROLAMELLAR BODY OF ETIOLATED SEEDLING. 51 PROTEASOMES ARE FOUND IN THE CYTOPLASM AND ALSO IN THE NUCLEUS. 1 PROTEIN BODIES INSIDE VACUOLES. 1 PROTEIN BODIES. 1 PROTEIN STORAGE VACUOLES OF SEEDS. THIS PROTEIN WAS WRONGLY THOUGHT TO BE ASSOCIATED WITH SEED OIL BODIES. 1 PTTH IS SYNTHESIZED BY TWO DORSOLATERAL NEUROSECRETORY CELLS OF THE BOMBYX BRAIN. 3 RADIAL SPOKE. 1 REGION SPANNING THE NUCLEOCAPSID AND ENVELOPE (BY SIMILARITY). 2 REGION SPANNING THE NUCLEOCAPSID AND ENVELOPE. 4 RELEASED FROM THE SECRETORY GRANULES UPON MAST CELL ACTIVATION. 1 RESIDES PRIMARILY AT THE PLASMA MEMBRANE. 50 ROUGH ENDOPLASMIC RETICULUM. 1 ROUGH ENDOPLASMIC RETICULUM. _ROTCC STANDARD; PRT; 329 AA. 1 ROUGH-SURFACED ENDOPLASMIC RETICULUM AND OUTER NUCLEAR MEMBRANE OF OLIGODENDROCYTES (BY SIMILARITY). 3 ROUGH-SURFACED ENDOPLASMIC RETICULUM AND OUTER NUCLEAR MEMBRANE OF OLIGODENDROCYTES. 2 S-GRANULES. 1 SARCOMERIC. 2 SARCOPLASMIC RETICULUM LUMEN. 1 SARCOPLASMIC RETICULUM LUMEN. ASSOCIATED THROUGH CA(2+) WITH THE MEMBRANE. 1 SCHIZONT MEMBRANE, INTERNAL SURFACE OF PARASITIZED ERYTHROCYTES AND ON MEMBRANOUS STRUCTURES IN THE ERYTHROCYTE CYTOPLASM. 31 SECRETED (BY SIMILARITY). 1 SECRETED (IL15-S48AA). IL15-S21AA IS NOT SECRETED, BUT RATHER IS STORED INTRACELLULARLY, APPEARING IN THE NUCLEUS AND CYTOPLASMIC COMPONENTS. 1 SECRETED (NUCLEASE A) OR MEMBRANE-BOUND (NUCLEASE B). 2 SECRETED (PLASMA FORM) AND CYTOPLASMIC. 3 SECRETED (POSSIBLE). THE PRESENCE OF AN N-TERMINAL HYDROPHOBIC SEQUENCE INDICATES THAT THIS COULD BE THE CASE. 72 SECRETED (POTENTIAL). 40 SECRETED (PROBABLE). 1 SECRETED (PROBABLE); THE BETA.3 FORM DOES NOT CONTAIN A TRANSMEMBRANE REGION. 1 SECRETED (PROBABLE); THIS RECEPTOR DOES NOT HAVE A TRANSMEMBRANE REGION. 1 SECRETED ACROSS THE MEMBRANE TO ASSEMBLE ON THE SPORE SURFACE. 1 SECRETED AND CYTOPLASMIC. 1 SECRETED AND MEMBRANE-BOUND. 1 SECRETED AND PERIPLASMIC. 1 SECRETED AND TO SOME EXTENT PERIPLASMIC. 1 SECRETED AND, TO A LESSER EXTENT, CYTOPLASMIC. 1 SECRETED AS A MONOMER. AFTER OLIGOMERIZATION AND PORE FORMATION, THE COMPLEX IS TRANSLOCATED ACROSS THE BILAYER, PROBABLY VIA THE GLY-RICH DOMAIN OF EACH STRAND. 1 SECRETED AS AN INACTIVE SINGLE-CHAIN PRECURSOR AND IS THEN ACTIVATED TO A HETERODIMERIC FORM. 2 SECRETED AS PART OF THE SEMINAL FLUID TRANSFERRED TO FEMALES. 1 SECRETED AT A VERY EARLY STAGE OF ENAMEL FORMATION, AND TIGHTLY BOUND TO THE SURFACE OF THE GROWING CRYSTALLITES. 6 SECRETED BUT REMAINS ASSOCIATED TO CELLS OR TO THE EXTRACELLULAR MATRIX UNLESS RELEASED BY HEPARIN (BY SIMILARITY). 2 SECRETED BUT REMAINS ASSOCIATED TO CELLS OR TO THE EXTRACELLULAR MATRIX UNLESS RELEASED BY HEPARIN. 1 SECRETED FROM AMEBOCYTE LARGE SECRETORY GRANULES. 1 SECRETED FROM THE APICAL CELL SURFACE. 1 SECRETED IN SALIVA. 1 SECRETED IN THE HEMOLYMPH. 6 SECRETED IN THE LUMEN OF OLFACTORY HAIRS (POTENTIAL). 1 SECRETED IN THE LUMEN OF THE SENSILLA (POTENTIAL). 1 SECRETED INTO THE CEREBROSPINAL FLUID. 5 SECRETED INTO THE ENDOPLASMIC RETICULUM. 3 SECRETED INTO THE ENDOSPERM. 4 SECRETED INTO THE EXTRACELLULAR MATRIX. 1 SECRETED INTO THE INNER LAYER OF EGG JELLY. 1 SECRETED OR AMYLOPLAST (POTENTIAL). 1 SECRETED OR INTRACELLULAR (THE VARIANT FORM). 1 SECRETED OR MEMBRANE-ASSOCIATED. 1 SECRETED TO THE SKELETAL COMPARTMENT AND ACCUMULATES PREDOMINANTLY AT THE ADVANCING MINERALIZING SURFACE OF THE SPICULE TIPS. AS THE SPICULES ELONGATE PM27 PROTEIN DISAPPEARS FROM THE MORE MATURE MID-SHAFT REGIONS. MAY BE CONCENTRATED AT THE MINERAL-NONMINERAL INTERFACE, RATHER THAN WITHIN THE SPICULE MATRIX. 2 SECRETED, PROBABLY FOUND AT CELL SURFACE. 1378 SECRETED. 1 SECRETED. ASSOCIATED WITH THE FRUITING BODIES. 1 SECRETED. BY A MECHANISM THAT DOES NOT INVOLVE AN N-TERMINAL SIGNAL PEPTIDE. 1 SECRETED. CELL-WALL BOUND. 1 SECRETED. EXTRACELLULAR MATRIX. 1 SECRETED. FOUND IN THE APICAL REGION OF PANCREATIC ACINAR CELLS (BY SIMILARITY). 2 SECRETED. FOUND IN THE APICAL REGION OF PANCREATIC ACINAR CELLS. 1 SECRETED. NOT SECRETED THROUGH THE CONVENTIONAL SECRETORY PATHWAY SINCE IT LACKS A SIGNAL SEQUENCE. 3 SECRETED. POSSIBLY ASSOCIATES WITH THE EXTRACELLULAR MATRIX. 2 SECRETED. PREDOMINANTLY LOCALIZED ON THE MEMBRANE OVERLYING THE ACROSOMAL CAP REGION OF THE SPERM HEAD. 1 SECRETED. STORED IN SPHERULOUS CELLS PRIOR TO SECRETION. 12 SECRETED; EXTRACELLULAR MATRIX (BY SIMILARITY). 1 SECRETED; EXTRACELLULAR MATRIX AND ONE FORM ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR. 12 SECRETED; EXTRACELLULAR MATRIX. 1 SECRETED; FOUND IN CORNEODESMOSOMES; THE INTERCELLULAR STRUCTURES THAT ARE INVOLVED IN DESQUAMATION (BY SIMILARITY). 1 SECRETED; FOUND IN CORNEODESMOSOMES; THE INTERCELLULAR STRUCTURES THAT ARE INVOLVED IN DESQUAMATION. 2 SECRETED; FOUND IN HOST CELL PARASITOPHOROUS VACUOLE. 1 SECRETED; IN NEUTROPHILS, LOCALIZED IN SPECIFIC GRANULES (BY SIMILARITY). 1 SECRETED; IN NEUTROPHILS, LOCALIZED IN SPECIFIC GRANULES. 1 SECRETED; MEMBRANE-ASSOCIATED (POTENTIAL). 1 SECRETED; SEEMS TO BE EXPORTED BY A MECHANISM OTHER THAN A LEADER PEPTIDE. 6 SECRETED; TIP OF THE PILI. 4 SECRETED; VIA THE HRP SECRETION PATHWAY. 1 SECRETORY GRANULES (BY SIMILARITY). 4 SECRETORY GRANULES OF PANCREATIC ISLETS, ADRENAL GLAND, PITUITARY AND BRAIN. 23 SECRETORY GRANULES. 2 SECRETORY PROTEIN, STORED IN ZYMOGEN GRANULES AND FOUND IN THE NUCLEAR ENVELOPE (BY SIMILARITY). 5 SECRETORY PROTEIN, STORED IN ZYMOGEN GRANULES AND FOUND IN THE NUCLEAR ENVELOPE. 4 SECRETORY VESICLES (POTENTIAL). 1 SECRETORY VESICLES. 4 SEEMS TO BE LOCALIZED INTRACELLULARLY TO THE TRANS GOLGI REGION. 1 SERTOLI CELLS SECRETORY PROTEIN. 1 SHUTTLES BETWEEN THE CYTOPLASMIC AND NUCLEUS IN A CELL CYCLE-DEPENDENT MANNER. 1 SHUTTLES ON CURVILINEAR TRACKS BETWEEN NUCLEOLUS AND CYTOPLASM. THESE TRACKS EXTEND FROM THE DENSE FIBRILLAR COMPONENT OF THE NUCLEOLUS ACROSS THE NUCLEOPLASM TO A LIMITED NUMBER OF NUCLEAR PORE COMPLEXES. 2 SOLUBLE AND PARTIALLY MEMBRANE-BOUND. 1 SOLUBLE OR BOUND TO MEMBRANES (PROBABLE). 3 SOLUBLE OR PERIPHERAL MEMBRANE PROTEIN (PROBABLE). 1 SPERM ACROSOMAL MATRIX. 3 SPERM SURFACE. 2 SPINDLE MICROTUBULES THAT LIE BETWEEN THE POLES. 1 SPINDLE POLE BODY AND MITOTIC SPINDLE. 3 SPORE OUTER COAT. 1 SPORE SURFACE. 1 STARCH GRANULE (BY SIMILARITY). 1 STARCH GRANULE. 2 STARCHY ENDOSPERM OF MATURE SEEDS. 3 STORED AS PROENZYMES IN THE ZYMOGEN GRANULES. 1 STORED IN INTRACELLULAR GRANULES. 1 STORED IN PRESPORE VACUOLES UNTIL IT IS DISCHARGED INTO THE INTERSPACE OF SPORES DURING SPORE FORMATION. 2 STORED IN SECRETORY GRANULES OF GRANULAR CONVOLUTED TUBULES CELLS. 3 STORED IN SPHERULOUS CELLS IN THE SPONGE TISSUE. 1 STORED IN THE PERIPLASM OF GAMETES UNTIL ITS RELEASE. SECRETED CONCURRENTLY WITH RELEASE OF THE CELL WALLS. 1 STRAIN H POLYHEDRIN IS FOUND IN THE CYTOPLASM, WHILE STRAIN A IS FOUND IN THE NUCLEUS. 1 STRONGLY ASSOCIATED WITH MEMBRANES. 2 STYLAR SECRETORY MATRIX. 1 SUBSTANTIAL LOCALIZATION IN CERTAIN NEURONAL NUCLEI (BY SIMILARITY). 1 SUBSTANTIAL LOCALIZATION IN CERTAIN NEURONAL NUCLEI. 1 SURFACE MEMBRANE AND INTERNAL RHOPTRIES. 1 SURFACE MEMBRANE. 1 SURFACE OF EXTRA- AND INTRACELLULAR TACHYZOITES AND ALSO COMPONENT OF THE VESICULAR NETWORK WITHIN THE PARASITOPHOROUS VACUOLE. 16 SURFACE OF OIL BODIES. OLEOSINS EXISTS AT A MONOLAYER LIPID/WATER INTERFACE. 1 SURFACE OF SPERM. 1 SURFACE OF SPOROZOITES. 2 SURFACE OF THE CELL. 1 SURFACE PROTEIN (POTENTIAL). 1 SURFACE PROTEIN. 1 SURFACE-ASSOCIATED. 1 SURFACE. 3 SYNAPSE. 1 SYNAPSED MEIOTIC CHROMOSOMES. 1 SYNAPSIS OF MEIOTIC CHROMOSOMES. 1 SYNAPTIC BASAL LAMINA AT THE NEUROMUSCULAR JUNCTION (BY SIMILARITY). 2 SYNAPTIC BASAL LAMINA AT THE NEUROMUSCULAR JUNCTION. 1 SYNAPTIC VESICLE. 7 SYNAPTIC VESICLES AND CHROMAFFIN GRANULES. 2 SYNAPTIC VESICLES AND VESICLE-LIKE STRUCTURES. 4 SYNAPTIC VESICLES IN NEURONS. 1 SYNAPTIC VESICLES. 16 TAIL-ANCHORED MEMBRANE PROTEIN (POTENTIAL). 9 TAIL-ANCHORED MEMBRANE PROTEIN. 2 THAUMATIN ACCUMULATES IN VESICLE-LIKE ORGANELLES. 1 THE 40 KD PROTEIN-TYROSINE KINASE SYK IS CYTOPLASMIC, THE 72 KD SYK IS MEMBRANE-ASSOCIATED. 1 THE 90 KD FORM IS NUCLEAR WHILE THE 100 KD AND THE 106 KD FORMS ARE BOTH NUCLEAR AND CYTOPLASMIC. 1 THE BINDING TARGET OF THE CA(2+)/S-MODULIN COMPLEX IS POSSIBLY ROS MEMBRANE LIPID(S). 26 THE COATOMER IS CYTOPLASMIC OR POLYMERIZED ON THE CYTOPLASMIC SIDE OF THE GOLGI, AS WELL AS ON THE VESICLES/BUDS ORIGINATING FROM IT (BY SIMILARITY). 1 THE COATOMER IS CYTOPLASMIC OR POLYMERIZED ON THE CYTOPLASMIC SIDE OF THE GOLGI, AS WELL AS ON THE VESICLES/BUDS ORIGINATING FROM IT. 3 THE ENZYME EXISTS IN TWO FORMS A MEMBRANE BOUND FORM ON THE CYTOPLASMIC SIDE OF THE ENDOPLASMIC RETICULUM AND IN SOLUBLE FORM IN ERYTHROCYTES. 1 THE G1 AND G2 STRUCTURAL PROTEINS ARE PROBABLY INSERTED INTO THE MEMBRANE OF THE GOLGI COMPLEX. 2 THE GLOBULAR FORM IS ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR. 2 THE GP51-GP54 PROTEIN IS ANCHORED TO THE VIRAL ENVELOPE. 2 THE MATURE ENZYME IS PROBABLY SECRETED FROM GRANULOCYTES INTO THE EXTRACELLULAR SPACE. 1 THE MITOCHONDRIAL AND CYTOPLASMIC FUMARASES ARE ENCODED BY A SINGLE NUCLEAR GENE. 1 THERE ARE TWO FORMS A CYTOPLASMIC FORM AND A MEMBRANE-BOUND FORM. 1 THERE ARE TWO FORMS OF LFA-3 THAT DIFFER IN MEMBRANE ATTACHMENT. THE LOWER MW FORM COULD BE ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR. 1 THERE ARE TWO ISOFORMS; A MIOCHONDRIAL AND A CYTOPLASMIC FORM. THE MITOCHONDRIAL FORM IS FOUND IN THE INTERMEMBRANE SPACE PROBABLY ATTACHED TO THE OUTER SIDE OF THE INNER MEMBRANE. 44 THICK FILAMENTS OF THE MYOFIBRILS. 1 THICK FILAMENTS OF THE MYOFIBRILS. MAY BE SECRETED. 1 THIS 62 KD POLYPEPTIDE IS A CONSTITUENT OF CYTOPLASMIC MESSENGER RIBONUCLEOPROTEIN PARTICLES (MRNPS). 2 THIS IS THE MAJOR MEMBRANE PROTEIN OF SPIROPLASMA. 4 THIS ISOFORM OF CALSEQUESTRIN OCCURS IN THE SARCOPLASMIC RETICULUM'S TERMINAL CISTERNAE LUMINAL SPACES OF CARDIAC AND SLOW SKELETAL MUSCLE CELLS. 4 THIS ISOFORM OF CALSEQUESTRIN OCCURS IN THE SARCOPLASMIC RETICULUM'S TERMINAL CISTERNAE LUMINAL SPACES OF FAST SKELETAL MUSCLE CELLS. 1 THIS ISOFORM OF CALSEQUESTRIN OCCURS IN THE SARCOPLASMIC RETICULUM'S TERMINAL CISTERNAE LUMINAL SPACES OF FAST SKELETAL MUSCLE CELLS. ALSO MITOCHONDRIAL ACCORDING TO REF.2. 2 THIS ISOFORM OF CALSEQUESTRIN OCCURS IN THE SARCOPLASMIC RETICULUM'S TERMINAL CISTERNAE LUMINAL SPACES OF FAST SKELETAL MUSCLE CELLS. ASPARTACTIN IS FOUND IN THE BASAL LAMINA SURROUNDING INDIVIDUAL MUSCLE FIBERS. 3 THIS PROTEIN IS INJECTED FROM THE VIRION INTO THE BACTERIAL CELL. 4 THIS PROTEIN IS LOCATED INTRACELLULAR, MOST PREDOMINANTLY IN THE ROUGH ENDOPLASMIC RETICULUM AND IN THE GOLGI APPARATUS, AND LITTLE OR NO MBP IS PRESENT IN PLASMA MEMBRANES AND LYSOSOMES. THE MBP IS EXCLUSIVELY LOCALIZED IN THE CISTERNAL SPACE OF THE ORGANELLES, PROBABLY AS A LOOSELY BOUND MEMBRANE PROTEIN. 1 THIS PROTEIN LACKS A NUCLEAR LOCALIZATION SIGNAL, IT MAY INTERACT IN THE CYTOPLASM WITH A COMPONENT OF SPLICEOSOMES VIA THE LEUCINE-ZIPPER AND THEN BE TRANSPORTED INTO THE NUCLEUS. 8 THIS PROTEIN OCCURS IN THE CORE MEMBRANE OF PHYCOBILISOMES, ASSOCIATED WITH ALLOPHYCOCYANIN. 2 THIS PROTEIN OCCURS IN THE ROD, IT IS ASSOCIATED WITH PHYCOCYANIN (BY SIMILARITY). 9 THIS PROTEIN OCCURS IN THE ROD, IT IS ASSOCIATED WITH PHYCOCYANIN. 2 THIS PROTEIN OCCURS IN THE ROD, IT IS ASSOCIATED WITH PHYCOERYTHRIN. 2 THIS PROTEIN OCCURS IN THE ROD, IT IS ASSOCIATED WITH PHYCOERYTHROCYANIN. 1 THIS VERY HYDROPHOBIC PROTEIN COULD INSERT ITSELF INTO MEMBRANES. 1 THROUGHOUT THE CYTOPLASM (BUT NOT ON THE CYTOPLASMIC CABLES) AND MAJOR COMPONENT OF THE CORTICAL ACTIN CYTOSKELETON. 1 THROUGHOUT THE NEURONAL CELLS (CELL BODY, AXONE & PRESYNAPTIC TERMINALS). 26 THYLAKOID MEMBRANE-ASSOCIATED. 4 TIGHTLY ASSOCIATED WITH THE PLASMA MEMBRANE. 2 TIGHTLY BOUND TO CELL WALL. 1 TIGHTLY, BUT NONCOVALENTLY, ASSOCIATED WITH MEMBRANES. 1 TRANS-GOLGI NETWORK. 1 TYPE I MEMBRANE PROTEIN (ALPHA AND DELTA FORMS); SECRETED (BETA AND GAMMA FORMS). 1 TYPE I MEMBRANE PROTEIN (ALPHA FORM); SECRETED (BETA AND GAMMA FORMS). 12 TYPE I MEMBRANE PROTEIN (BY SIMILARITY). 1 TYPE I MEMBRANE PROTEIN (FORM A) AND SOLUBLE (FORM B). 1 TYPE I MEMBRANE PROTEIN (LONG FORM) AND ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR (SHORT FORM). 1 TYPE I MEMBRANE PROTEIN (LONG FORM) AND SECRETED (SHORT FORM). 1 TYPE I MEMBRANE PROTEIN (LONG ISOFORM) OR ATTACHED TO THE MEMBRANE BY A GPI-ANCHOR (SHORT ISOFORM). 34 TYPE I MEMBRANE PROTEIN (POTENTIAL). 1 TYPE I MEMBRANE PROTEIN (POTENTIAL). THERE IS ALSO A SECRETED SOLUBLE FORM, ME20-S, PROBABLY PRODUCT OF PROTEOLYTIC CLEAVAGE. 8 TYPE I MEMBRANE PROTEIN (PRECURSOR FORM); EXTRACELLULAR (MATURE FORM). 12 TYPE I MEMBRANE PROTEIN (PROBABLE). 1 TYPE I MEMBRANE PROTEIN AND ALSO SECRETED. 2 TYPE I MEMBRANE PROTEIN AND NUCLEAR (POTENTIAL). 2 TYPE I MEMBRANE PROTEIN AND SECRETED. 898 TYPE I MEMBRANE PROTEIN. 1 TYPE I MEMBRANE PROTEIN. A SECRETED FORM IS ALSO PRODUCED. 2 TYPE I MEMBRANE PROTEIN. A SOLUBLE FORM IS ALSO PRODUCED BY ALTERNATIVE SPLICING. 6 TYPE I MEMBRANE PROTEIN. ALSO EXISTS AS A SECRETED SOLUBLE FORM. 4 TYPE I MEMBRANE PROTEIN. ALSO SECRETED. 4 TYPE I MEMBRANE PROTEIN. BRUSH BORDER. 1 TYPE I MEMBRANE PROTEIN. CANALICULAR DOMAIN OF HEPATOCYTE PLASMA MEMBRANES. 1 TYPE I MEMBRANE PROTEIN. CELL SURFACE BOUND (POTENTIAL). 1 TYPE I MEMBRANE PROTEIN. CELL SURFACE BOUND. 1 TYPE I MEMBRANE PROTEIN. CELL WALL (POTENTIAL). 35 TYPE I MEMBRANE PROTEIN. CELL WALL. 1 TYPE I MEMBRANE PROTEIN. CHROMAFFIN GRANULE. 1 TYPE I MEMBRANE PROTEIN. CONCENTRATED AT THE APICAL END PRIOR TO RUPTURE, FOLLOWING WHICH IT CAN DISTRIBUTE ITSELF ENTIRELY ACROSS THE SURFACE OF THE FREE MEROZOITE. DURING INVASION PK66 IS EXCLUDED FROM THE ERYTHROCYTE AT, AND BEHIND, THE INVASION INTERFACE. 13 TYPE I MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM (BY SIMILARITY). 5 TYPE I MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM (POTENTIAL). 4 TYPE I MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM (PROBABLE). 1 TYPE I MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM AND TRANS-GOLGI NETWORK. 1 TYPE I MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM-GOLGI INTERMEDIATE COMPARTMENT (ERGIC). 34 TYPE I MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM. 2 TYPE I MEMBRANE PROTEIN. ENDOSOMAL OR LYSOSOMAL (LONG VARIANT) AND TO A LESSER EXTENT ON THE CELL SURFACE (SHORT VARIANT). 1 TYPE I MEMBRANE PROTEIN. EXCEPT FOR FORM E WHICH COULD BE SECRETED. 1 TYPE I MEMBRANE PROTEIN. EXCLUSIVELY LOCATED IN THE APICAL DOMAIN OF THE PLASMA MEMBRANE OF HIGHLY POLARIZED EPITHELIAL CELLS. 1 TYPE I MEMBRANE PROTEIN. EXPRESSED IN CLATHRIN-COATED PITS; A SOLUBLE FORM IS POSSIBLY DERIVED BY CLEAVAGE AT THE CELL SURFACE. 17 TYPE I MEMBRANE PROTEIN. EXTRACELLULAR MATRIX. 2 TYPE I MEMBRANE PROTEIN. FIMBRIA. 1 TYPE I MEMBRANE PROTEIN. FOUND AT CELL-CELL BOUNDARIES AND PROBABLY AT CELL-MATRIX BOUNDARIES (BY SIMILARITY). 1 TYPE I MEMBRANE PROTEIN. FOUND AT CELL-CELL BOUNDARIES AND PROBABLY AT CELL-MATRIX BOUNDARIES. 1 TYPE I MEMBRANE PROTEIN. GM-CSF-R-ALPHA-2 IS PROBABLY SOLUBLE. 3 TYPE I MEMBRANE PROTEIN. GOLGI-DERIVED COATOMER-COATED VESICLES. 1 TYPE I MEMBRANE PROTEIN. GOLGI. 3 TYPE I MEMBRANE PROTEIN. GOLI CISTERNAE (BY SIMILARITY). 2 TYPE I MEMBRANE PROTEIN. GOLI CISTERNAE. 2 TYPE I MEMBRANE PROTEIN. LATE GOLGI COMPARTMENT (BY SIMILARITY). 2 TYPE I MEMBRANE PROTEIN. LATE GOLGI COMPARTMENT. 1 TYPE I MEMBRANE PROTEIN. LINKED TO THE MEMBRANE VIA BAND 4.1. 6 TYPE I MEMBRANE PROTEIN. LYSOSOMAL. 3 TYPE I MEMBRANE PROTEIN. LYSOSOMAL. THIS PROTEIN SHUTTLES BETWEEN LYSOSOMES, ENDOSOMES, AND THE PLASMA MEMBRANE (BY SIMILARITY). 7 TYPE I MEMBRANE PROTEIN. LYSOSOMAL. THIS PROTEIN SHUTTLES BETWEEN LYSOSOMES, ENDOSOMES, AND THE PLASMA MEMBRANE. 2 TYPE I MEMBRANE PROTEIN. MATURE HB-EGF IS RELEASED INTO THE EXTRACELLULAR SPACE AND PROBABLY BINDS TO A RECEPTOR (BY SIMILARITY). 3 TYPE I MEMBRANE PROTEIN. MATURE HB-EGF IS RELEASED INTO THE EXTRACELLULAR SPACE AND PROBABLY BINDS TO A RECEPTOR. 1 TYPE I MEMBRANE PROTEIN. MAY BE PROCESSED IN THE GOLGI COMPLEX; HOWEVER, IT IS NOT YET CLEAR WHETER APLP IS SECRETED (BY SIMILARITY). 1 TYPE I MEMBRANE PROTEIN. MAY BE PROCESSED IN THE GOLGI COMPLEX; HOWEVER, IT IS NOT YET CLEAR WHETER APLP IS SECRETED. 4 TYPE I MEMBRANE PROTEIN. MELANOSOMAL (POTENTIAL). 11 TYPE I MEMBRANE PROTEIN. MELANOSOMAL. 1 TYPE I MEMBRANE PROTEIN. NEUROENDOCRINE SECRETORY GRANULES. 1 TYPE I MEMBRANE PROTEIN. THE GCSFR-2 FORM, WHICH LACKS THE TRANSMEMBRANE DOMAIN, MAY REPRESENT A SOLUBLE FORM OF THE RECEPTOR. 1 TYPE I MEMBRANE PROTEIN. THE SHORT FORM LACKS A TRANSMEMBRANE DOMAIN AND IS EITHER SECRETED OR RAPIDLY DEGRADED. 2 TYPE I MEMBRANE PROTEIN. THERE IS A MEMBRANE-BOUND AND A SECRETED FORM. 1 TYPE I MEMBRANE PROTEIN; AT ADHERENS JUNCTIONS. 1 TYPE IB MEMBRANE PROTEIN. INNER MEMBRANE (POTENTIAL). 2 TYPE IB MEMBRANE PROTEIN. INNER MEMBRANE. 4 TYPE II MEMBRANE PROTEIN (BY SIMILARITY). 43 TYPE II MEMBRANE PROTEIN (POTENTIAL). 26 TYPE II MEMBRANE PROTEIN (PROBABLE). 1 TYPE II MEMBRANE PROTEIN (PROBABLE). MAINLY GOLGI STACK, BUT ALSO FOUND IN SMALL VACUOLAR ORGANELLES AND MULTIVESICULAR BODIES. 120 TYPE II MEMBRANE PROTEIN. 1 TYPE II MEMBRANE PROTEIN. ALSO EXISTS AS A SOLUBLE EXCRETED FORM. 5 TYPE II MEMBRANE PROTEIN. ALSO EXISTS AS AN EXTRACELLULAR SOLUBLE FORM (BY SIMILARITY). 17 TYPE II MEMBRANE PROTEIN. ALSO EXISTS AS AN EXTRACELLULAR SOLUBLE FORM. 1 TYPE II MEMBRANE PROTEIN. ALSO EXISTS IN A SOLUBLE FORM (BY SIMILARITY). 4 TYPE II MEMBRANE PROTEIN. ALSO EXISTS IN A SOLUBLE FORM. 1 TYPE II MEMBRANE PROTEIN. ANCHORED TO THE ER AND/OR THE GOLGI MEMBRANES. 3 TYPE II MEMBRANE PROTEIN. BRUSH BORDER. 1 TYPE II MEMBRANE PROTEIN. CELL WALL. 1 TYPE II MEMBRANE PROTEIN. CYCLING BETWEEN ENDOPLASMIC RETICULUM AND THE EARLY GOLGI. 2 TYPE II MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM (POTENTIAL). 1 TYPE II MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM MEMBRANE. 6 TYPE II MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM. 1 TYPE II MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM. ITS INTERACTION WITH THE SUBSTRATE UDP-GLUCOSE MAY OCCUR AT THE CYTOPLASMIC SIDE OF THE ER, WHEREAS THE STEPS UTILIZING DOLICHYL BETA-D-GLUCOSYL PHOSPHATE TAKE PLACE IN THE LUMEN OF THE ER. 1 TYPE II MEMBRANE PROTEIN. FOUND IN INNER AND OUTER MEMBRANES. 4 TYPE II MEMBRANE PROTEIN. GOLGI (BY SIMILARITY). 21 TYPE II MEMBRANE PROTEIN. GOLGI (POTENTIAL). 1 TYPE II MEMBRANE PROTEIN. GOLGI (PROBABLE). 4 TYPE II MEMBRANE PROTEIN. GOLGI MEMBRANE (BY SIMILARITY). 1 TYPE II MEMBRANE PROTEIN. GOLGI MEMBRANE. 2 TYPE II MEMBRANE PROTEIN. GOLGI SUBCOMPARTIMENT. 36 TYPE II MEMBRANE PROTEIN. GOLGI. 5 TYPE II MEMBRANE PROTEIN. INNER MEMBRANE (BY SIMILARITY). 6 TYPE II MEMBRANE PROTEIN. INNER MEMBRANE (POTENTIAL). 13 TYPE II MEMBRANE PROTEIN. INNER MEMBRANE (PROBABLE). 79 TYPE II MEMBRANE PROTEIN. INNER MEMBRANE. 2 TYPE II MEMBRANE PROTEIN. LYSOSOMAL. 2 TYPE II MEMBRANE PROTEIN. LYSOSOME-LIKE VACUOLES. 3 TYPE II MEMBRANE PROTEIN. MAY BE RELEASED INTO THE EXTRACELLULAR FLUID, PROBABLY BY CLEAVAGE FORM THE CELL SURFACE. 2 TYPE II MEMBRANE PROTEIN. MEMBRANE-BOUND FORM IN TRANS CISTERNAE OF GOLGI (BY SIMILARITY). 1 TYPE II MEMBRANE PROTEIN. MEMBRANE-BOUND FORM IN TRANS CISTERNAE OF GOLGI (BY SIMILARITY). BLADDER, UTERUS AND SALIVARY GLAND. 15 TYPE II MEMBRANE PROTEIN. MEMBRANE-BOUND FORM IN TRANS CISTERNAE OF GOLGI, SOLUBLE FORM IN BODY FLUIDS. 18 TYPE II MEMBRANE PROTEIN. MEMBRANE-BOUND FORM IN TRANS CISTERNAE OF GOLGI. 1 TYPE II MEMBRANE PROTEIN. MEMBRANE-BOUND FORM IN TRANS CISTERNAE OF GOLGI. (BY SIMILARITY). 4 TYPE II MEMBRANE PROTEIN. MEMBRANE-BOUND FORM IN TRANS CISTERNAE OF GOLGI. SOLUBLE FORM IN BODY FLUIDS. 3 TYPE II MEMBRANE PROTEIN. MICROSOMAL (POTENTIAL). 6 TYPE II MEMBRANE PROTEIN. MICROSOMAL. 2 TYPE II MEMBRANE PROTEIN. MITOCHONDRIAL OUTER MEMBRANE. 10 TYPE II MEMBRANE PROTEIN. NEURONAL SYNAPTIC VESICLES. 2 TYPE II MEMBRANE PROTEIN. NUCLEAR PORE MEMBRANE. 1 TYPE II MEMBRANE PROTEIN. POST-GOLGI VESICLE MEMBRANE (BY SIMILARITY). 2 TYPE II MEMBRANE PROTEIN. POST-GOLGI VESICLE MEMBRANE (PROBABLE). 1 TYPE II MEMBRANE PROTEIN. SPANS THE ERYTHROCYTE MEMBRANE, AND IS ATTACHED TO THE UNDERLYING CYTOSKELETON. 6 TYPE III MEMBRANE PROTEIN (POTENTIAL). 35 TYPE III MEMBRANE PROTEIN. 1 TYPE III MEMBRANE PROTEIN. ENDOPLASMIC RETICULUM. 3 TYPE III MEMBRANE PROTEIN. LYSOSOMAL. 1 TYPE III MEMBRANE PROTEIN. LYSOSOMAL. SECRETORY GRANULES & PLASMA MEMBRANE OF MANY CULTURED CELL LINES. 1 UNIFORMLY DISTRIBUTED BETWEEN THE CELL BODY AND THE PROCESSES IN THE NEURONS. 1 UNIFORMLY DISTRIBUTED IN EGGS, BECOMES LOCALIZED TO THE NUCLEI DURING EARLY MITOTIC DIVISIONS IN EARLY EMBRYOGENESIS. SWALLOW ENTERS EACH NUCLEUS AT THE BEGINNING OF MITOSIS, OCCUPIES A POSITION COMPLEMENTARY TO THAT OF CONDENSED CHROMATIN, AND LEAVES EACH NUCLEUS AT THE END OF MITOSIS. 1 UNLIKE OTHER ALPHA-MANNOSIDASES, THE ENZYME IS SOLUBLE AND SECRETED IN THE CULTURE MEDIUM. 7 VACUOLAR (BY SIMILARITY). 1 VACUOLAR (IN INTACT TISSUES) (BY SIMILARITY). 1 VACUOLAR (IN INTACT TISSUES). 4 VACUOLAR (POTENTIAL). 4 VACUOLAR (PROBABLE). 8 VACUOLAR AND PROTOPLAST (BY SIMILARITY). 1 VACUOLAR AND PROTOPLASTS (PROBABLE). 3 VACUOLAR AND PROTOPLASTS. 1 VACUOLAR INCLUSION BODIES. 1 VACUOLAR OR SECRETED (POTENTIAL). 30 VACUOLAR. 1 VACUOLAR. COULD BE FIRST ANCHORED TO THE MEMBRANE THROUGH ITS PROPEPTIDE BEFORE BEING RELEASED. 1 VACUOLE-ASSOCIATED (POTENTIAL). 1 VACUOLE-LIKE SUBCELLULAR COMPARTMENT. 1 VEGF-1 AND VEGF-2 ARE SECRETED WHILST VEGF-3 REMAINS CELL-SURFACE ASSOCIATED UNLESS RELEASED BY HEPARIN. 1 VESICULAR. 61 VIRAL MEMBRANE. FORMS A MUSHROOM-SHAPED SPIKE ON THE SURFACE OF THE VIRION. 3 VIRION, CELL SURFACE OR SECRETORY GLYCOPROTEIN. 1 VPS15 AND VPS34 FORM A COMPLEX THAT IS PERIPHERALLY ASSOCIATED WITH THE CYTOPLASMIC FACE OF A LATE GOLGI OR VESICLE COMPARTMENT. 1 WASP VENOM RESERVOIRS. 8 WHOLLY INTRACELLULAR, POSSIBLY MEMBRANE ASSOCIATED (BY SIMILARITY). 2 WHOLLY INTRACELLULAR, POSSIBLY MEMBRANE ASSOCIATED. 6 WITHIN THE THYLAKOID LUMEN. PERIPHERY OF THE RODS OF THE PHYCOBILISOME. 2 YOP PROTEINS ARE SECRETED OR ASSOCIATED WITH THE OUTER MEMBRANE. ---- 28759