A PATHWAY FOR CELL-WALL ANCHORAGE OF SACCHAROMYCES-CEREVISIAE ALPHA-AGGLUTININ

被引：139

作者：

LU, CF

KURJAN, J

LIPKE, PN

机构：

[1] CUNY HUNTER COLL, DEPT BIOL SCI, NEW YORK, NY 10021 USA

[2] CUNY HUNTER COLL, INST BIOMOLEC STRUCT & FUNCT, NEW YORK, NY 10021 USA

[3] UNIV VERMONT, DEPT MICROBIOL & MOLEC GENET, BURLINGTON, VT 05405 USA

[4] UNIV VERMONT, VERMONT REG CANC CTR, BURLINGTON, VT 05405 USA

来源：

MOLECULAR AND CELLULAR BIOLOGY | 1994年 / 14卷 / 07期

关键词：

D O I：

10.1128/MCB.14.7.4825

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Saccharomyces cerevisiae alpha-agglutinin is a cell wall-anchored adhesion glycoprotein. The previously identified 140-kDa form, which contains a glycosyl-phosphatidylinositol (GPI) anchor (D. Wojciechowicz, C.-F. Lu, J. Kurjan, and P. N. Lipke, Mol. Cell. Biol. 13:2554-2563, 1993), and additional forms of 80, 150, 250 to 300, and >300 M)a had the properties of intermediates in a transport and cell wall anchorage pathway. N glycosylation and additional modifications resulted in successive increases in size during transport. The 150- and 250- to 900-kDa forms were membrane associated and are likely to be intermediates between the 140-kDa form and a cell surface GPI-anchored form of >300 kDa. A soluble form of >300 kDa that lacked the GPI anchor had properties of a periplasmic intermediate between the plasma membrane form and the >300-kDa cell wall-anchored form. These results constitute experimental support for the hypothesis that GPI anchors act to localize alpha-agglutinin to the plasma membrane and that cell wall anchorage involves release from the GPI anchor to produce a periplasmic intermediate followed by linkage to the cell wall.

引用

页码：4825 / 4833

页数：9

共 53 条

[1] BALLOU CE, 1988, SELF ASSEMBLING ARCH, P105
[2] YEAST KRE GENES PROVIDE EVIDENCE FOR A PATHWAY OF CELL-WALL BETA-GLUCAN ASSEMBLY
BOONE, C
SOMMER, SS
HENSEL, A
BUSSEY, H
[J]. JOURNAL OF CELL BIOLOGY, 1990, 110 (05) : 1833 - 1843
[3] SACCHAROMYCES-CEREVISIAE A-AGGLUTININ AND ALPHA-AGGLUTININ - CHARACTERIZATION OF THEIR MOLECULAR INTERACTION
CAPPELLARO, C
HAUSER, K
MRSA, V
WATZELE, M
WATZELE, G
GRUBER, C
TANNER, W
[J]. EMBO JOURNAL, 1991, 10 (13) : 4081 - 4088
[4] FLUOROGRAPHIC DETECTION OF RADIOACTIVITY IN POLYACRYLAMIDE GELS WITH THE WATER-SOLUBLE FLUOR, SODIUM-SALICYLATE
CHAMBERLAIN, JP
[J]. ANALYTICAL BIOCHEMISTRY, 1979, 98 (01) : 132 - 135
[5] A MAJOR 125-KD MEMBRANE GLYCOPROTEIN OF SACCHAROMYCES-CEREVISIAE IS ATTACHED TO THE LIPID BILAYER THROUGH AN INOSITOL-CONTAINING PHOSPHOLIPID
CONZELMANN, A
RIEZMAN, H
DESPONDS, C
BRON, C
[J]. EMBO JOURNAL, 1988, 7 (07) : 2233 - 2240
[6] MYOINOSITOL GETS INCORPORATED INTO NUMEROUS MEMBRANE-GLYCOPROTEINS OF SACCHAROMYCES-CEREVISIAE - INCORPORATION IS DEPENDENT ON PHOSPHOMANNOMUTASE (SEC53)
CONZELMANN, A
FANKHAUSER, C
DESPONDS, C
[J]. EMBO JOURNAL, 1990, 9 (03) : 653 - 661
[7] CONJUGATION IN SACCHAROMYCES-CEREVISIAE
CROSS, F
HARTWELL, LH
JACKSON, C
KONOPKA, JB
[J]. ANNUAL REVIEW OF CELL BIOLOGY, 1988, 4 : 429 - 457
[8] GLYCOLIPID ANCHORING OF PLASMA-MEMBRANE PROTEINS
CROSS, GAM
[J]. ANNUAL REVIEW OF CELL BIOLOGY, 1990, 6 : 1 - 39
[9] DENOBEL JG, 1994, TRENDS CELL BIOL, V4, P42
[10] CHARACTERIZATION OF A COMPONENT OF THE YEAST SECRETION MACHINERY - IDENTIFICATION OF THE SEC18 GENE-PRODUCT
EAKLE, KA
BERNSTEIN, M
EMR, SD
[J]. MOLECULAR AND CELLULAR BIOLOGY, 1988, 8 (10) : 4098 - 4109

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