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Enrico Cabib

This is a preview profile on BiomedExperts - the first literature-based scientific social network. It brings the right researchers together and allows them to collaborate online. Collexis and Dell provide the BiomedExperts network of +1.5 Million pre-calculated profiles free of charge to researchers worldwide.

Research Profile (preview)

Chemicals & Drugs

Living Beings

Saccharomyces cerevisiae

Anatomy

Cell Wall

Physiology

Concepts & Ideas

Kinetics

Procedures

Electron Microscopy

Genes & Molecular Sequences

Fungal Genes

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Network (preview)

Co-Publications
Name
7
Drgon, Tomas
6
Schmidt, Martin
5
Bowers, Blair
5
Drgonová, J
5
Roh, Dong-Hyun
3
Varma, Archana
3
Durán, Angel
2
Kapteyn, JC
2
Klis, Frans
2
Valdivieso, M-Henar
2
Robbins, Phillips
1
Ashwell, Gilbert
1
Roncero, Cesar
1
Trilla, José
1
van den Ende, Herman

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Publications

TOP 3
Cabib Enrico
Two novel techniques for determination of polysaccharide cross-links show that Crh1p and Crh2p attach chitin to both beta(1-6)- and beta(1-3)glucan in the Saccharomyces cerevisiae cell wall.
Cabib Enrico; Farkas Vladimir; Kosík Ondrej; Blanco Noelia; Arroyo Javier; McPhie Peter
Assembly of the yeast cell wall. Crh1p and Crh2p act as transglycosylases in vivo and in vitro.
Schmidt Martin; Drgon Tomas; Bowers Blair; Cabib Enrico
Hyperpolarized growth of Saccharomyces cerevisiae cak1P212S and cla4 mutants weakens cell walls and renders cells dependent on chitin synthase 3.

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All Publications

2009: Cabib Enrico
Two novel techniques for determination of polysaccharide cross-links show that Crh1p and Crh2p attach chitin to both beta(1-6)- and beta(1-3)glucan in the Saccharomyces cerevisiae cell wall.
Eukaryotic cell 2009;8(11):1626-36.
2008: Cabib Enrico; Farkas Vladimir; Kosík Ondrej; Blanco Noelia; Arroyo Javier; McPhie Peter
Assembly of the yeast cell wall. Crh1p and Crh2p act as transglycosylases in vivo and in vitro.
The Journal of biological chemistry 2008;283(44):29859-72.
2008: Schmidt Martin; Drgon Tomas; Bowers Blair; Cabib Enrico
Hyperpolarized growth of Saccharomyces cerevisiae cak1P212S and cla4 mutants weakens cell walls and renders cells dependent on chitin synthase 3.
FEMS yeast research 2008;8(3):362-73.
2007: Cabib Enrico; Blanco Noelia; Grau Cecilia; Rodríguez-Peña José Manuel; Arroyo Javier
Crh1p and Crh2p are required for the cross-linking of chitin to beta(1-6)glucan in the Saccharomyces cerevisiae cell wall.
Molecular microbiology 2007;63(3):921-35.
2005: Cabib Enrico; Durán Angel
Synthase III-dependent chitin is bound to different acceptors depending on location on the cell wall of budding yeast.
The Journal of biological chemistry 2005;280(10):9170-9.
2004: Cabib Enrico
The septation apparatus, a chitin-requiring machine in budding yeast.
Archives of biochemistry and biophysics 2004;426(2):201-7.
2003: Cabib Enrico; Schmidt Martin
Chitin synthase III activity, but not the chitin ring, is required for remedial septa formation in budding yeast.
FEMS microbiology letters 2003;224(2):299-305.
2003: Schmidt Martin; Varma Archana; Drgon Tomás; Bowers Blair; Cabib Enrico
Septins, under Cla4p regulation, and the chitin ring are required for neck integrity in budding yeast.
Molecular biology of the cell 2003;14(5):2128-41.
2002: Roh Dong-Hyun; Bowers Blair; Schmidt Martin; Cabib Enrico
The septation apparatus, an autonomous system in budding yeast.
Molecular biology of the cell 2002;13(8):2747-59.
2002: Roh Dong-Hyun; Bowers Blair; Riezman Howard; Cabib Enrico
Rho1p mutations specific for regulation of beta(1-->3)glucan synthesis and the order of assembly of the yeast cell wall.
Molecular microbiology 2002;44(5):1167-83.
2002: Schmidt Martin; Bowers Blair; Varma Archana; Roh Dong-Hyun; Cabib Enrico
In budding yeast, contraction of the actomyosin ring and formation of the primary septum at cytokinesis depend on each other.
Journal of cell science 2002;115(Pt 2):293-302.
2001: Cabib E; Roh D H; Schmidt M; Crotti L B; Varma A
The yeast cell wall and septum as paradigms of cell growth and morphogenesis.
The Journal of biological chemistry 2001;276(23):19679-82.
2001: Crotti L B; Drgon T; Cabib E
Yeast cell permeabilization by osmotic shock allows determination of enzymatic activities in situ.
Analytical biochemistry 2001;292(1):8-16.
1999: Drgonová J; Drgon T; Roh D H; Cabib E
The GTP-binding protein Rho1p is required for cell cycle progression and polarization of the yeast cell.
The Journal of cell biology 1999;146(2):373-87.
1998: Cos T; Ford R A; Trilla J A; Duran A; Cabib E; Roncero C
Molecular analysis of Chs3p participation in chitin synthase III activity.
European journal of biochemistry / FEBS 1998;256(2):419-26.
1998: Cabib E; Drgonová J; Drgon T
Role of small G proteins in yeast cell polarization and wall biosynthesis.
Annual review of biochemistry 1998;67():307-33.
1997: Kapteyn J C; Ram A F; Groos E M; Kollar R; Montijn R C; Van Den Ende H; Llobell A; Cabib E; Klis F M
Altered extent of cross-linking of beta1,6-glucosylated mannoproteins to chitin in Saccharomyces cerevisiae mutants with reduced cell wall beta1,3-glucan content.
Journal of bacteriology 1997;179(20):6279-84.
1997: Kollár R; Reinhold B B; Petráková E; Yeh H J; Ashwell G; Drgonová J; Kapteyn J C; Klis F M; Cabib E
Architecture of the yeast cell wall. Beta(1-->6)-glucan interconnects mannoprotein, beta(1-->)3-glucan, and chitin.
The Journal of biological chemistry 1997;272(28):17762-75.
1997: Cabib E; Drgon T; Drgonová J; Ford R A; Kollár R
The yeast cell wall, a dynamic structure engaged in growth and morphogenesis.
Biochemical Society transactions 1997;25(1):200-4.
1996: Ford R A; Shaw J A; Cabib E
Yeast chitin synthases 1 and 2 consist of a non-homologous and dispensable N-terminal region and of a homologous moiety essential for function.
Molecular & general genetics : MGG 1996;252(4):420-8.
1996: Drgonová J; Drgon T; Tanaka K; Kollár R; Chen G C; Ford R A; Chan C S; Takai Y; Cabib E
Rho1p, a yeast protein at the interface between cell polarization and morphogenesis.
Science (New York, N.Y.) 1996;272(5259):277-9.
1995: Kollár R; Petráková E; Ashwell G; Robbins P W; Cabib E
Architecture of the yeast cell wall. The linkage between chitin and beta(1-->3)-glucan.
The Journal of biological chemistry 1995;270(3):1170-8.
1994: Mol P C; Park H M; Mullins J T; Cabib E
A GTP-binding protein regulates the activity of (1-->3)-beta-glucan synthase, an enzyme directly involved in yeast cell wall morphogenesis.
The Journal of biological chemistry 1994;269(49):31267-74.
1994: Choi W J; Santos B; Durán A; Cabib E
Are yeast chitin synthases regulated at the transcriptional or the posttranslational level?
Molecular and cellular biology 1994;14(12):7685-94.
1994: Choi W J; Cabib E
The use of divalent cations and pH for the determination of specific yeast chitin synthetases.
Analytical biochemistry 1994;219(2):368-72.
1994: Choi W J; Sburlati A; Cabib E
Chitin synthase 3 from yeast has zymogenic properties that depend on both the CAL1 and the CAL3 genes.
Proceedings of the National Academy of Sciences of the United States of America 1994;91(11):4727-30.
1993: Cabib E; Mol P C; Shaw J A; Choi W J
Biosynthesis of cell wall and septum during yeast growth.
Archives of medical research 1993;24(3):301-3.
1992: Cabib E; Silverman S J; Shaw J A
Chitinase and chitin synthase 1: counterbalancing activities in cell separation of Saccharomyces cerevisiae.
Journal of general microbiology 1992;138(1):97-102.
1991: Shaw J A; Mol P C; Bowers B; Silverman S J; Valdivieso M H; Durán A; Cabib E
The function of chitin synthases 2 and 3 in the Saccharomyces cerevisiae cell cycle.
The Journal of cell biology 1991;114(1):111-23.
1991: Valdivieso M H; Mol P C; Shaw J A; Cabib E; Durán A
CAL1, a gene required for activity of chitin synthase 3 in Saccharomyces cerevisiae.
The Journal of cell biology 1991;114(1):101-9.
1991: Cabib E
Differential inhibition of chitin synthetases 1 and 2 from Saccharomyces cerevisiae by polyoxin D and nikkomycins.
Antimicrobial agents and chemotherapy 1991;35(1):170-3.
1991: Silverman S J; Shaw J A; Cabib E
Proteinase B is, indeed, not required for chitin synthetase 1 function in Saccharomyces cerevisiae.
Biochemical and biophysical research communications 1991;174(1):204-10.
1989: Cabib E; Sburlati A; Bowers B; Silverman S J
Chitin synthase 1, an auxiliary enzyme for chitin synthesis in Saccharomyces cerevisiae.
The Journal of cell biology 1989;108(5):1665-72.
1988: Cabib E; Bowers B; Sburlati A; Silverman S J
Fungal cell wall synthesis: the construction of a biological structure.
Microbiological sciences 1988;5(12):370-5.
1988: Silverman S J; Sburlati A; Slater M L; Cabib E
Chitin synthase 2 is essential for septum formation and cell division in Saccharomyces cerevisiae.
Proceedings of the National Academy of Sciences of the United States of America 1988;85(13):4735-9.
1987: Cabib E; Kang M S; Au-Young J
Chitin synthase from Saccharomyces cerevisiae.
Methods in enzymology 1987;138():643-9.
1986: Sburlati A; Cabib E
Chitin synthetase 2, a presumptive participant in septum formation in Saccharomyces cerevisiae.
The Journal of biological chemistry 1986;261(32):15147-52.
1986: Bulawa C E; Slater M; Cabib E; Au-Young J; Sburlati A; Adair W L; Robbins P W
The S. cerevisiae structural gene for chitin synthase is not required for chitin synthesis in vivo.
Cell 1986;46(2):213-25.
1985: Kang M S; Au-Young J; Cabib E
Modification of yeast plasma membrane density by concanavalin A attachment. Application to study of chitin synthetase distribution.
The Journal of biological chemistry 1985;260(23):12680-4.
1985: Slater M L; Bowers B; Cabib E
Formation of septum-like structures at locations remote from the budding sites in cytokinesis-defective mutants of Saccharomyces cerevisiae.
Journal of bacteriology 1985;162(2):763-7.
1984: Kang M S; Elango N; Mattia E; Au-Young J; Robbins P W; Cabib E
Isolation of chitin synthetase from Saccharomyces cerevisiae. Purification of an enzyme by entrapment in the reaction product.
The Journal of biological chemistry 1984;259(23):14966-72.
1984: Zlotnik H; Fernandez M P; Bowers B; Cabib E
Saccharomyces cerevisiae mannoproteins form an external cell wall layer that determines wall porosity.
Journal of bacteriology 1984;159(3):1018-26.
1984: Cabib E; Polacheck I
Protein assay for dilute solutions.
Methods in enzymology 1984;104():415-6.
1983: Cabib E; Bowers B; Roberts R L
Vectorial synthesis of a polysaccharide by isolated plasma membranes.
Proceedings of the National Academy of Sciences of the United States of America 1983;80(11):3318-21.
1983: Roberts R L; Bowers B; Slater M L; Cabib E
Chitin synthesis and localization in cell division cycle mutants of Saccharomyces cerevisiae.
Molecular and cellular biology 1983;3(5):922-30.
1982: Fernandez M P; Correa J U; Cabib E
Activation of chitin synthetase in permeabilized cells of a Saccharomyces cerevisiae mutant lacking proteinase B.
Journal of bacteriology 1982;152(3):1255-64.
1982: Elango N; Correa J U; Cabib E
Secretory character of yeast chitinase.
The Journal of biological chemistry 1982;257(3):1398-400.
1982: Correa J U; Elango N; Polacheck I; Cabib E
Endochitinase, a mannan-associated enzyme from Saccharomyces cerevisiae.
The Journal of biological chemistry 1982;257(3):1392-7.
1982: Cabib E; Roberts R; Bowers B
Synthesis of the yeast cell wall and its regulation.
Annual review of biochemistry 1982;51():763-93.
1981: Polacheck I; Cabib E
A simple procedure for protein determination by the Lowry method in dilute solutions and in the presence of interfering substances.
Analytical biochemistry 1981;117(2):311-4.
1980: Molano J; Bowers B; Cabib E
Distribution of chitin in the yeast cell wall. An ultrastructural and chemical study.
The Journal of cell biology 1980;85(2):199-212.

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