Faculty Bibliography

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258

Journal of cellular biochemistry. 1993:36(1):263-263.DOI:

CELL-FREE TRANSPORT OF VIRAL MEMBRANE-GLYCOPROTEINS FROM THE GOLGI-APPARATUS TO THE PLASMA-MEMBRANE OF POLARIZED CELLS [Meeting Abstract]

SIMON, JP; MAYER, A; GRAVOTTA, D; IVANOV, I; ADESNIK, M; SABATINI, DD
ISI:A1993KN46500944
ISSN: 0730-2312
CID: 54369
Molecular biology of the cell. 1993:4(SUPPL.):321A-321A.DOI:

An in vitro system for studying the biogenesis and function of Golgi-derived clathrin-coated vesicles

Simon, J.-P.; Ivanov, I. E.; De Lemos-Chiarandini, C.; Adesnik, M.; Sabatini, D. D.
BIOSIS:PREV199497111289
ISSN: 1059-1524
CID: 104646
Molecular biology of the cell. 1993:4(SUPPL.):209A-209A.DOI:

Prenylated proteins play a critical role in transport from the TGN to both cell surface domains of MDCK cells

Gravotta, D.; Mayer, A.; Adesnik, M.; Sabatini, D. D.
BIOSIS:PREV199497110642
ISSN: 1059-1524
CID: 104645
Molecular biology of the cell. 1993:4(SUPPL.):423A-423A.DOI:

Genomic organization of the rat ribophorin II gene: Common cis-regulatory elements are found in the 5' flanking regions of the rat ribophorin I and ribophorin II genes

Zhou, Z.; Prakash, K.; Rajasekaran, A. K.; Adesnik, M.; Sabatini, D. D.; Kreibich, G.
BIOSIS:PREV199497111878
ISSN: 1059-1524
CID: 104647

Membranes

Sabatini, David D; Louvard, Daniel; Adesnik, Milton; Higgins, CF
London : Current Biology, 1993
Extent: 573-767 p. ; 28cm
ISBN: n/a
CID: 1683
Molecular biology of the cell. 1992:3(4):A307-A307.DOI:

CELL-FREE RECONSTITUTION OF THE POLARIZED TRANSPORT OF A VIRAL GLYCOPROTEIN FROM THE TGN TO THE BASOLATERAL PLASMA-MEMBRANE OF MDCK CELLS [Meeting Abstract]

MAYER, A; IVANOV, I; ADESNIK, M; SABATINI, D
ISI:A1992JR25501785
ISSN: 1059-1524
CID: 51869
Molecular biology of the cell. 1992:3(4):A308-A308.DOI:

INVITRO FORMATION OF POST GOLGI VESICLES CARRYING VIRAL ENVELOPE GLYCOPROTEINS [Meeting Abstract]

SIMON, JP; IVANOV, I; RINDLER, M; ADESNIK, M; SABATINI, DD
ISI:A1992JR25501786
ISSN: 1059-1524
CID: 51870
Molecular biology of the cell. 1992:3(4):A125-A125.DOI:

ROLE OF CHARGED AMINO-ACIDS WITHIN THE SEGMENTS FLANKING THE HYDROPHOBIC CORE OF A SIGNAL ANCHOR SEQUENCE IN DETERMINING THE TRANSMEMBRANE DISPOSITION OF A PROTEIN [Meeting Abstract]

MONIER, S; SABATINI, D; ADESNIK, M
ISI:A1992JR25500725
ISSN: 1059-1524
CID: 51862
Molecular biology of the cell. 1992:3(4):A303-A303.DOI:

MUTATION OF THE TYROSINE-CONTAINING ENDOCYTIC SIGNAL IN THE VSV G-PROTEIN IMPAIRS BASOLATERAL BUT NOT APICAL ENDOCYTOSIS IN MDCK CELLS [Meeting Abstract]

GOTTLIEB, T; KRUPPA, J; KRUPPA, A; ADESNIK, M; SABATINI, D
ISI:A1992JR25501758
ISSN: 1059-1524
CID: 51868
Journal of cell biology. 1992:117(5):949-58.DOI: 10.1083/jcb.117.5.949

O-glycosylation of intact and truncated ribophorins in brefeldin A-treated cells: newly synthesized intact ribophorins are only transiently accessible to the relocated glycosyltransferases

Ivessa NE; De Lemos-Chiarandini C; Tsao YS; Takatsuki A; Adesnik M; Sabatini DD; Kreibich G
Ribophorins I and II are type I transmembrane glycoproteins of the ER that are segregated to the rough domains of this organelle. Both ribophorins appear to be part of the translocation apparatus for nascent polypeptides that is associated with membrane-bound ribosomes and participate in the formation of a proteinaceous network within the ER membrane that also includes other components of the translocation apparatus. The ribophorins are both highly stable proteins that lack O-linked sugars but each contains one high mannose N-linked oligosaccharide that remains endo H sensitive throughout their lifetimes. We have previously shown (Tsao, Y. S., N. E. Ivessa, M. Adesnik, D. D. Sabatini, and G. Kreibich. 1992. J. Cell Biol. 116:57-67) that a COOH-terminally truncated variant of ribophorin I that contains only the first 332 amino acids of the luminal domain (RI332), when synthesized in permanent transformants of HeLa cells, undergoes a rapid degradation with biphasic kinetics in the ER itself and in a second, as yet unidentified nonlysosomal pre-Golgi compartment. We now show that in cells treated with brefeldin A (BFA) RI332 molecules undergo rapid O-glycosylation in a multistep process that involves the sequential addition of N-acetylgalactosamine, galactose, and terminal sialic acid residues. Addition of O-linked sugars affected all newly synthesized RI332 molecules and was completed soon after synthesis with a half time of about 10 min. In the same cells, intact ribophorins I and II also underwent O-linked glycosylation in the presence of BFA, but these molecules were modified only during a short time period immediately after their synthesis was completed, and the modification affected only a fraction of the newly synthesized polypeptides. More important, these molecules synthesized before the addition of BFA were not modified by O-glycosylation. The same is true for ribophorin I when overexpressed in HeLa cells although it is significantly less stable than the native polypeptide in control cells. We, therefore, conclude that soon after their synthesis, ribophorins lose their susceptibility to the relocated Golgi enzymes that effect the O-glycosylation, most likely as a consequence of a conformational change in the ribophorins that occurs during their maturation, although it cannot be excluded that rapid integration of these molecules into a supramolecular complex in the ER membrane leads to their inaccessibility to these enzymes
PMCID:2289488
PMID: 1577870
ISSN: 0021-9525
CID: 13579