Molecular forms of N-CAM and its RNA in developing and denervated skeletal muscle.
about
NCAM1 Polysialylation: The Prion Protein's Elusive Reason for Being?Identification of a cDNA clone that contains the complete coding sequence for a 140-kD rat NCAM polypeptideAML1 is expressed in skeletal muscle and is regulated by innervationTranscription initiation sites and structural organization of the extreme 5' region of the rat neural cell adhesion molecule geneReexpression of poly(sialic acid) units of the neural cell adhesion molecule in Wilms tumorPre-mRNA processing is partially impaired in satellite cell nuclei from aged muscles.Cellular signaling by neural cell adhesion molecules of the immunoglobulin superfamily.Laminins of the neuromuscular system.Myocardial localization and isoforms of neural cell adhesion molecule (N-CAM) in the developing and transplanted human heart.Neural cell adhesion molecule (N-CAM) is elevated in adult avian slow muscle fibers with multiple terminalsAging influences adaptations of the neuromuscular junction to endurance trainingPolysialic acid of the neural cell adhesion molecule distinguishes small cell lung carcinoma from carcinoidsEnhanced expression of neural cell adhesion molecules and tenascin (cytotactin) during wound healing.Differential expression of beta 1 integrins in nonneoplastic smooth and striated muscle cells and in tumors derived from these cellsDistribution of N-CAM in synaptic and extrasynaptic portions of developing and adult skeletal muscle.Cell surface modulation of the neural cell adhesion molecule resulting from alternative mRNA splicing in a tissue-specific developmental sequence.Topographic localization of the heparin-binding domain of the neural cell adhesion molecule N-CAM.Biosynthesis, membrane association, and release of N-CAM-120, a phosphatidylinositol-linked form of the neural cell adhesion molecule.Skeletal muscle neural cell adhesion molecule (N-CAM): changes in protein and mRNA species during myogenesis of muscle cell linesDistribution and role in regeneration of N-CAM in the basal laminae of muscle and Schwann cellsFibroblasts that proliferate near denervated synaptic sites in skeletal muscle synthesize the adhesive molecules tenascin(J1), N-CAM, fibronectin, and a heparan sulfate proteoglycanModulation of NCAM expression by transforming growth factor-beta, serum, and autocrine factors.Contractile activity regulates isoform expression and polysialylation of NCAM in cultured myotubes: involvement of Ca2+ and protein kinase CLL5beta: a regulator of postsynaptic differentiation identified in a screen for synaptically enriched transcripts at the neuromuscular junction.Clusters of neural cell adhesion molecule at sites of cell-cell contactDifferent extracellular domains of the neural cell adhesion molecule (N-CAM) are involved in different functionsRegulation and activity-dependence of N-cadherin, NCAM isoforms, and polysialic acid on chick myotubes during development.Identification of positive and negative regulatory elements governing cell-type-specific expression of the neural cell adhesion molecule gene.Myogenin and MyoD join a family of skeletal muscle genes regulated by electrical activity.cDNA clones of the neural cell adhesion molecule (N-CAM) lacking a membrane-spanning region consistent with evidence for membrane attachment via a phosphatidylinositol intermediate.Pax3:Fkhr interferes with embryonic Pax3 and Pax7 function: implications for alveolar rhabdomyosarcoma cell of origin.Analysis of cDNA clones that code for the transmembrane forms of the mouse neural cell adhesion molecule (NCAM) and are generated by alternative RNA splicingPathogenetic mechanisms of post-polio syndrome: morphological, electrophysiological, virological, and immunological correlations.Differential splicing and alternative polyadenylation generates distinct NCAM transcripts and proteins in the mouseThe neural cell adhesion molecule expresses a tyrosine-independent basolateral sorting signal.N-Propionylmannosamine stimulates axonal elongation in a murine model of sciatic nerve injury.Developmental shift of myosin heavy chain mRNA expression due to neural factor(s) and muscle activity.Isolation and nucleotide sequence of mouse NCAM cDNA that codes for a Mr 79,000 polypeptide without a membrane-spanning region.Nerve growth factor-induced changes in neural cell adhesion molecule (N-CAM) in PC12 cells.Noncoordinate developmental regulation of N-cadherin, N-CAM, integrin, and fibronectin mRNA levels during myoblast terminal differentiation.
P2860
Q28071519-D34F5081-7468-4906-A6BF-A15036D2CCD8Q28577943-2B105A2B-F6BA-4565-856A-2EF944E66683Q28582279-189BE177-9916-4EBC-B083-EE080011F754Q33255735-D979AD0A-8E3E-4102-BF77-9C38D48A84B1Q33569897-9CFBF61E-A0BB-4956-8174-EA531CA69681Q33861160-A9A8A85F-5343-4308-8F3E-27BF8C88BF20Q33936720-E3311E2F-F540-491F-9C5F-8011C114DAA0Q34071971-11630B03-8EF8-44CB-ACA5-BAC2BCBB162EQ34262060-C07C2ED1-0849-4726-A3DF-A9E20F093DD8Q34298554-00980C27-E261-4B1B-AC8B-905C2E4F1C84Q35165091-DFDD428D-09A2-4DBB-A81D-DCCEDF681FA9Q35830462-5DD49D10-96E2-4EBB-A55A-7F82727D21BEQ35830730-0E759DE5-75CC-4FE4-BABD-BAC6F12FD095Q35834111-AA71DB28-63B6-4AE6-BEFF-32707B1853E3Q36214493-A8D016C0-311D-46F1-8537-45784BE2F960Q36215554-F8AC987F-3A45-4A76-82DD-5EF3367B7292Q36215856-ED00CFF8-EC63-4603-B16D-0B03004F4BB4Q36217115-B03D77AC-2540-4DE8-BA46-F348BBF777E3Q36217649-684F668C-411E-4F8D-A84F-2C468DE65319Q36219213-D43E084A-6443-41C8-AAA5-630B1E7306FDQ36220612-B06D622F-E1DC-422C-BE04-F66729841DA3Q36223318-CF147DD3-A1D5-491B-AF96-6E0542077DF4Q36236542-FFFE7811-1A8D-40FF-835B-0DEF6E0F6B44Q36321567-8A3D2974-5150-4CC2-AEA5-6628B91A472AQ36530803-2282BDF6-209E-41F1-9D76-50919C8503FFQ36531563-13D2AE3C-FBDB-4FA2-8CF0-0AECFA1BA466Q36534758-CEAB1CC2-42A1-45A1-92A1-74FEA5646185Q36707977-96F372C7-09B3-4390-A75D-41B8FF6C9BD6Q37402536-DCDBD189-DC33-4752-8482-F6E1882B7424Q37413169-85AC7C99-AB7B-404C-A42C-6ED6A32E4B58Q37598845-20A6410C-A26C-453F-9BE3-CBB3B3DD2D5AQ40391274-0D8318E7-31EF-44A6-AC7F-7BA8E901BCB6Q40444415-D9486919-AB46-4EC3-A3F3-1B07609F04CAQ41091409-D8E2C163-F447-4D0D-A962-9C245AC9DF00Q41127776-E056368C-0C74-4EC4-ADF1-68C8818FE7D5Q41147185-9D47CA94-F029-4D9A-8423-5726CC2C0136Q41161953-AA1F502D-39EA-456B-B25D-34CEDA849D76Q41337679-2B0D13A8-766E-402E-88C0-148A496CE4D8Q41343405-54E55A86-209F-43C0-9642-44ED9486D1D9Q41602383-291C35B3-C9FD-4065-8B80-5B25F0626A97
P2860
Molecular forms of N-CAM and its RNA in developing and denervated skeletal muscle.
description
1986 nî lūn-bûn
@nan
1986年の論文
@ja
1986年論文
@yue
1986年論文
@zh-hant
1986年論文
@zh-hk
1986年論文
@zh-mo
1986年論文
@zh-tw
1986年论文
@wuu
1986年论文
@zh
1986年论文
@zh-cn
name
Molecular forms of N-CAM and its RNA in developing and denervated skeletal muscle.
@ast
Molecular forms of N-CAM and its RNA in developing and denervated skeletal muscle.
@en
type
label
Molecular forms of N-CAM and its RNA in developing and denervated skeletal muscle.
@ast
Molecular forms of N-CAM and its RNA in developing and denervated skeletal muscle.
@en
prefLabel
Molecular forms of N-CAM and its RNA in developing and denervated skeletal muscle.
@ast
Molecular forms of N-CAM and its RNA in developing and denervated skeletal muscle.
@en
P2093
P2860
P356
P1476
Molecular forms of N-CAM and its RNA in developing and denervated skeletal muscle.
@en
P2093
P2860
P304
P356
10.1083/JCB.102.3.731
P407
P577
1986-03-01T00:00:00Z