| scholarly article | Q13442814 |
| P356 | DOI | 10.1083/JCB.138.1.143 |
| P953 | full work available at URL | https://rupress.org/jcb/article-pdf/138/1/143/1271366/32821.pdf |
| https://europepmc.org/articles/PMC2139938 | ||
| https://europepmc.org/articles/PMC2139938?pdf=render | ||
| https://rupress.org/jcb/article-pdf/138/1/143/1842608/32821.pdf | ||
| P932 | PMC publication ID | 2139938 |
| P698 | PubMed publication ID | 9214388 |
| P5875 | ResearchGate publication ID | 36006859 |
| P2093 | author name string | Y. Huang | |
| K. M. Johansen | |||
| J. Johansen | |||
| J. Jellies | |||
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| Fasciclin I and II have distinct roles in the development of grasshopper pioneer neurons | Q36772359 | ||
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| Factors regulating the expression and function of calcium-independent cell adhesion molecules | Q40780320 | ||
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| Axonal glycoproteins with immunoglobulin- and fibronectin type III-related domains in vertebrates: structural features, binding activities, and signal transduction | Q40848761 | ||
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| The (Greek) key to structures of neural adhesion molecules | Q41098521 | ||
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| Functional analysis of posttranslational cleavage products of the neuron-glia cell adhesion molecule, Ng-CAM. | Q41321981 | ||
| Molecular mechanisms mediating axon pathway formation. | Q41349485 | ||
| Membrane glycoproteins involved in neurite fasciculation | Q41514566 | ||
| Distribution of carbohydrate epitopes among disjoint subsets of leech sensory afferent neurons | Q41662300 | ||
| Peripheral neurons depend on CNS-derived guidance cues for proper navigation during leech development | Q41668121 | ||
| Ankyrin binding activity shared by the neurofascin/L1/NrCAM family of nervous system cell adhesion molecules | Q42695486 | ||
| Modulation of an NCAM-related adhesion molecule with long-term synaptic plasticity in Aplysia | Q43746233 | ||
| The synthesis of complex carbohydrates by multiglycosyltransferase systems and their potential function in intercellular adhesion | Q44473935 | ||
| A mannose-specific recognition mediates the defasciculation of axons in the leech CNS | Q44559504 | ||
| Genetic analysis of growth cone guidance in Drosophila: fasciclin II functions as a neuronal recognition molecule | Q45086467 | ||
| The Drosophila beaten path gene encodes a novel secreted protein that regulates defasciculation at motor axon choice points. | Q45940208 | ||
| Genetic analysis of Fasciclin II in Drosophila: defasciculation, refasciculation, and altered fasciculation. | Q46004298 | ||
| Growth cone guidance in insects: fasciclin II is a member of the immunoglobulin superfamily | Q46222747 | ||
| Differential splicing generates a nervous system—Specific form of drosophila neuroglian | Q46607453 | ||
| Neurofascin: a novel chick cell-surface glycoprotein involved in neurite-neurite interactions | Q48172258 | ||
| Delineation of olfactory pathways in the frog nervous system by unique glycoconjugates and N-CAM glycoforms | Q48779664 | ||
| Initial formation and secondary condensation of nerve pathways in the medicinal leech. | Q52199828 | ||
| Dual action of a carbohydrate epitope on afferent and efferent axons in cortical development. | Q52200922 | ||
| Developmental expression of the axonal glycoprotein TAG-1: differential regulation by central and peripheral neurons in vitro. | Q52237084 | ||
| Monoclonal antibodies distinguish identifiable neurones in the leech | Q59070391 | ||
| Polysialic acid influences specific pathfinding by avian motoneurons | Q67490372 | ||
| Expression of surface glycoproteins early in leech neural development | Q67672756 | ||
| The specificity of 130-kDa leech sensory afferent proteins is encoded by their carbohydrate epitopes | Q67674815 | ||
| Tract formation and axon fasciculation of molecularly distinct peripheral neuron subpopulations during leech embryogenesis | Q68077685 | ||
| A group of related surface glycoproteins distinguish sets and subsets of sensory afferents in the leech nervous system | Q68160287 | ||
| Protein analysis on two-dimensional polyacrylamide gels in the femtogram range: Use of a new sulfur-labeling reagent | Q68404904 | ||
| Morphological changes in leech Retzius neurons after target contact during embryogenesis | Q69227857 | ||
| Defasciculation as a neuronal pathfinding strategy: involvement of a specific glycoprotein | Q69480393 | ||
| Embryonic development of the hirudinid leech Hirudo medicinalis: structure, development and segmentation of the germinal plate | Q70631495 | ||
| TAG-1 can mediate homophilic binding, but neurite outgrowth on TAG-1 requires an L1-like molecule and beta 1 integrins | Q71618287 | ||
| A one-step purification of membrane proteins using a high efficiency immunomatrix | Q72046171 | ||
| Targeting of neuronal subsets mediated by their sequentially expressed carbohydrate markers | Q72108754 | ||
| Polysialic acid regulates growth cone behavior during sorting of motor axons in the plexus region | Q72129542 | ||
| Kinetics of the inhibition of axonal defasciculation and arborization mediated by carbohydrate markers in the embryonic leech | Q72189365 | ||
| Specific pathway selection by the early projections of individual peripheral sensory neurons in the embryonic medicinal leech | Q72393485 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | neurite | Q1534415 |
| glycosylation | Q898365 | ||
| P1104 | number of pages | 15 | |
| P304 | page(s) | 143-157 | |
| P577 | publication date | 1997-07-01 | |
| 1997-07-14 | |||
| P1433 | published in | Journal of Cell Biology | Q1524550 |
| P1476 | title | Differential glycosylation of tractin and LeechCAM, two novel Ig superfamily members, regulates neurite extension and fascicle formation | |
| Differential Glycosylation of Tractin and LeechCAM, Two Novel Ig Superfamily Members, Regulates Neurite Extension and Fascicle Formation | |||
| P478 | volume | 138 |
| Q42503128 | A novel member of the Ig superfamily, turtle, is a CNS-specific protein required for coordinated motor control. |
| Q50783396 | A phylogenetic analysis of the L1 family of neural cell adhesion molecules. |
| Q28572225 | CAKbeta/Pyk2 kinase is a signaling link for induction of long-term potentiation in CA1 hippocampus |
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| Q33936720 | Cellular signaling by neural cell adhesion molecules of the immunoglobulin superfamily |
| Q52182113 | Cholesterol and its derivatives, are the principal steroids isolated from the leech species Hirudo medicinalis. |
| Q28208656 | Cloning of an immunoglobulin family adhesion molecule selectively expressed by endothelial cells |
| Q34303386 | Colonization state influences the hemocyte proteome in a beneficial squid-Vibrio symbiosis |
| Q73176669 | Differential glycosylation and proteolytical processing of LeechCAM in central and peripheral leech neurons |
| Q42159842 | Effects of nerve injury and segmental regeneration on the cellular correlates of neural morphallaxis |
| Q77537767 | Extracellular matrix glycoproteins inhibit neurite production by cultured neurons |
| Q78021223 | Gliarin and macrolin, two novel intermediate filament proteins specifically expressed in sets and subsets of glial cells in leech central nervous system |
| Q34170811 | Molecular characterization of the insect immune protein hemolin and its high induction during embryonic diapause in the gypsy moth, Lymantria dispar |
| Q48358040 | Molecular identification and sequence analysis of Hillarin, a novel protein localized at the axon hillock |
| Q33883610 | Multiple changes in peptide and lipid expression associated with regeneration in the nervous system of the medicinal leech |
| Q41755566 | Neural cell recognition molecule L1: from cell biology to human hereditary brain malformations |
| Q72999390 | Posttranslational processing and differential glycosylation of Tractin, an Ig-superfamily member involved in regulation of axonal outgrowth |
| Q40687972 | Proteolytic cleavage of the ectodomain of the L1 CAM family member Tractin |
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| Q40548028 | Two variable regions in carcinoembryonic antigen-related cell adhesion molecule1 N-terminal domains located in or next to monoclonal antibody and adhesion epitopes show evidence of recombination in rat but not in human |
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