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The Resource Biochemical roles of eukaryotic cell surface macromolecules, Abhijit Chakrabarti, (electronic book)

Biochemical roles of eukaryotic cell surface macromolecules, Abhijit Chakrabarti, (electronic book)

Label
Biochemical roles of eukaryotic cell surface macromolecules
Title
Biochemical roles of eukaryotic cell surface macromolecules
Statement of responsibility
Abhijit Chakrabarti
Creator
Author
Subject
Language
eng
Summary
Consists of critical reviews and original research papers from the 2014 International Symposium on the "Biochemical Role of Eukaryotic Cell Surface Macromolecules". Topics covered include: · neurochemical and biochemical analysis of cell surface glycoconjugates · membrane skeletal organization · GPCRs and other receptors · biophysical approaches to study membrane interactions · glycoconjugate metabolism · dysregulation · molecular mechanisms involved in cell-cell and cell-matrix interaction · glycans in infectious and neurological diseases · cancer and glycosyltransferases as drug targets
Member of
Cataloging source
E7B
http://library.link/vocab/creatorName
Chakrabarti, Abhijit
Dewey number
574.87
Illustrations
illustrations
Index
index present
LC call number
QH650
LC item number
.C435 2015eb
Literary form
non fiction
Nature of contents
  • dictionaries
  • bibliography
Series statement
Advances in Experimental Medicine and Biology,
Series volume
Volume 842
http://library.link/vocab/subjectName
  • Eukaryotic cells
  • Molecular biology
  • Cell receptors
Label
Biochemical roles of eukaryotic cell surface macromolecules, Abhijit Chakrabarti, (electronic book)
Instantiates
Publication
Copyright
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type MARC source
rdacontent
Contents
  • Preface; Contents; Chapter 1: Human-Specific Evolutionary Changes in the Biology of Siglecs; Introduction; Human-Specific Changes in Siglecs; Siglec-1/Sialoadhesin; Siglec-3/CD33; Siglec-5 and -14; Siglec-6; Siglec-9; Siglec-11 and -16; Siglec-XII; Siglec-13; Siglec-17; Conclusions and Perspectives; References; Chapter 2: Structural Changes of GPI Anchor After Its Attachment to Proteins: Functional Significance; Introduction; Biosynthesis of GPI and Its Attachment to Proteins; GPI Remodeling Reactions That Occur After Attachment to Proteins; Inositol-Deacylation by PGAP1 in the ER
  • Removal of an EtNP Side Branch from the Second Mannose by PGAP5 in the ER Fatty Acid Remodeling of GPI-AP in the Golgi; Biological Significance of Fatty Acid Remodeling; References; Chapter 3: Novel Insights in Membrane Biology Utilizing Fluorescence Recovery After Photobleaching; The Dynamic Membrane; Fluorescence Recovery After Photobleaching; Lipid Dynamics by FRAP; GPCR Activation: Manifestations in Receptor Dynamics; Dynamic Confinement of GPCRs Upon Cholesterol Depletion: Insight from Bleach Area-Dependent FRAP; Are Signaling and Dynamics Correlated?
  • Lateral Dynamics as Readout of Infection Conclusion and Future Perspectives; References; Chapter 4: Defects in Erythrocyte Membrane Skeletal Architecture; Introduction; Membrane Skeleton; Erythroid Membrane Skeleton; Lipid Bilayer: Membrane Skeleton Interactions; Assembly of the Membrane-Skeleton of Erythroid Cells; Defects in Membrane Skeleton; Hereditary Spherocytosis; Molecular Defects in HS; Pathophysiology; Laboratory Features and Treatment; Hereditary Elliptocytosis; Molecular Defects in HE; Laboratory Features and Treatment; Malaria and the Erythrocyte Membrane Skeleton Alterations
  • ConclusionReferences; Chapter 5: Membrane Rafts in the Erythrocyte Membrane: A Novel Role of MPP1p55; Introduction; Erythrocyte Membrane Rafts; Stomatin, Flotillins and MPP1 Are the Stable Components of Erythrocyte Rafts; Stomatin; Flotillins; MPP1; Visualization of Erythrocyte Membrane Rafts; Role of Erythrocyte Membrane Rafts in Signaling; Erythrocyte Rafts and Pathology; MPP1 and Its Palmitoylation Play a Crucial Role in Lateral Membrane Organization in Erythroid Cells; The Involvement of Actin in Erythrocyte Membrane Rafts Organization?; Conclusions; References
  • Chapter 6: Immuno-Modulatory Role of Porins: Host Immune Responses, Signaling Mechanisms and Vaccine PotentialIntroduction; Role of Porins in Modulation of Immune Responses; Innate Immune Responses; Adaptive Immune Response; Signaling Cascades Initiated by Porins; Porins as Vaccine Candidates; Conclusion; References; Chapter 7: Vibrio cholerae Cytolysin: Structure-Function Mechanism of an Atypical Ý-Barrel Pore-Forming Toxin; Introduction; Vibrio cholerae Cytolysin; Structural Features of VCC; Structural Features of the VCC Ý-Barrel Pore; Mechanism of Membrane Pore Formation; Conclusion
Control code
SPR899000318
Dimensions
unknown
Extent
1 online resource (407 pages)
Form of item
online
Isbn
9783319112794
Media category
computer
Media MARC source
rdamedia
Other control number
10.1007/978-3-319-11280-0
Other physical details
illustrations (some color), tables.
Reproduction note
Electronic resource.
Specific material designation
remote
Label
Biochemical roles of eukaryotic cell surface macromolecules, Abhijit Chakrabarti, (electronic book)
Publication
Copyright
Bibliography note
Includes bibliographical references and index
Carrier category
online resource
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type MARC source
rdacontent
Contents
  • Preface; Contents; Chapter 1: Human-Specific Evolutionary Changes in the Biology of Siglecs; Introduction; Human-Specific Changes in Siglecs; Siglec-1/Sialoadhesin; Siglec-3/CD33; Siglec-5 and -14; Siglec-6; Siglec-9; Siglec-11 and -16; Siglec-XII; Siglec-13; Siglec-17; Conclusions and Perspectives; References; Chapter 2: Structural Changes of GPI Anchor After Its Attachment to Proteins: Functional Significance; Introduction; Biosynthesis of GPI and Its Attachment to Proteins; GPI Remodeling Reactions That Occur After Attachment to Proteins; Inositol-Deacylation by PGAP1 in the ER
  • Removal of an EtNP Side Branch from the Second Mannose by PGAP5 in the ER Fatty Acid Remodeling of GPI-AP in the Golgi; Biological Significance of Fatty Acid Remodeling; References; Chapter 3: Novel Insights in Membrane Biology Utilizing Fluorescence Recovery After Photobleaching; The Dynamic Membrane; Fluorescence Recovery After Photobleaching; Lipid Dynamics by FRAP; GPCR Activation: Manifestations in Receptor Dynamics; Dynamic Confinement of GPCRs Upon Cholesterol Depletion: Insight from Bleach Area-Dependent FRAP; Are Signaling and Dynamics Correlated?
  • Lateral Dynamics as Readout of Infection Conclusion and Future Perspectives; References; Chapter 4: Defects in Erythrocyte Membrane Skeletal Architecture; Introduction; Membrane Skeleton; Erythroid Membrane Skeleton; Lipid Bilayer: Membrane Skeleton Interactions; Assembly of the Membrane-Skeleton of Erythroid Cells; Defects in Membrane Skeleton; Hereditary Spherocytosis; Molecular Defects in HS; Pathophysiology; Laboratory Features and Treatment; Hereditary Elliptocytosis; Molecular Defects in HE; Laboratory Features and Treatment; Malaria and the Erythrocyte Membrane Skeleton Alterations
  • ConclusionReferences; Chapter 5: Membrane Rafts in the Erythrocyte Membrane: A Novel Role of MPP1p55; Introduction; Erythrocyte Membrane Rafts; Stomatin, Flotillins and MPP1 Are the Stable Components of Erythrocyte Rafts; Stomatin; Flotillins; MPP1; Visualization of Erythrocyte Membrane Rafts; Role of Erythrocyte Membrane Rafts in Signaling; Erythrocyte Rafts and Pathology; MPP1 and Its Palmitoylation Play a Crucial Role in Lateral Membrane Organization in Erythroid Cells; The Involvement of Actin in Erythrocyte Membrane Rafts Organization?; Conclusions; References
  • Chapter 6: Immuno-Modulatory Role of Porins: Host Immune Responses, Signaling Mechanisms and Vaccine PotentialIntroduction; Role of Porins in Modulation of Immune Responses; Innate Immune Responses; Adaptive Immune Response; Signaling Cascades Initiated by Porins; Porins as Vaccine Candidates; Conclusion; References; Chapter 7: Vibrio cholerae Cytolysin: Structure-Function Mechanism of an Atypical Ý-Barrel Pore-Forming Toxin; Introduction; Vibrio cholerae Cytolysin; Structural Features of VCC; Structural Features of the VCC Ý-Barrel Pore; Mechanism of Membrane Pore Formation; Conclusion
Control code
SPR899000318
Dimensions
unknown
Extent
1 online resource (407 pages)
Form of item
online
Isbn
9783319112794
Media category
computer
Media MARC source
rdamedia
Other control number
10.1007/978-3-319-11280-0
Other physical details
illustrations (some color), tables.
Reproduction note
Electronic resource.
Specific material designation
remote

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