Benjamin Glick to Fungal Proteins
This is a "connection" page, showing publications Benjamin Glick has written about Fungal Proteins.
Connection Strength
2.038
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Sec16 influences transitional ER sites by regulating rather than organizing COPII. Mol Biol Cell. 2013 Nov; 24(21):3406-19.
Score: 0.385
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Sec12 binds to Sec16 at transitional ER sites. PLoS One. 2012; 7(2):e31156.
Score: 0.345
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The budding yeast Pichia pastoris has a novel Sec23p homolog. FEBS Lett. 2006 Oct 02; 580(22):5215-21.
Score: 0.237
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Bioreactor-scale cell performance and protein production can be substantially increased by using a secretion signal that drives co-translational translocation in Pichia pastoris. N Biotechnol. 2021 Jan 25; 60:85-95.
Score: 0.157
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Isolation of Pichia pastoris genes involved in ER-to-Golgi transport. Yeast. 2000 Aug; 16(11):979-93.
Score: 0.155
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Pathways and energetics of mitochondrial protein import in Saccharomyces cerevisiae. Methods Enzymol. 1995; 260:224-31.
Score: 0.105
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Protein import into isolated yeast mitochondria. Methods Cell Biol. 1991; 34:389-99.
Score: 0.080
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Mitochondrial protein import. J Bioenerg Biomembr. 1990 Dec; 22(6):725-51.
Score: 0.079
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Golgi inheritance in small buds of Saccharomyces cerevisiae is linked to endoplasmic reticulum inheritance. Proc Natl Acad Sci U S A. 2004 Dec 28; 101(52):18018-23.
Score: 0.053
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De novo formation of transitional ER sites and Golgi structures in Pichia pastoris. Nat Cell Biol. 2002 Oct; 4(10):750-6.
Score: 0.045
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Paz2 and 13 other PAZ gene products regulate vacuolar engulfment of peroxisomes during micropexophagy. Genes Cells. 2002 Jan; 7(1):75-90.
Score: 0.043
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A role for actin, Cdc1p, and Myo2p in the inheritance of late Golgi elements in Saccharomyces cerevisiae. J Cell Biol. 2001 Apr 02; 153(1):47-62.
Score: 0.041
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Golgi structure correlates with transitional endoplasmic reticulum organization in Pichia pastoris and Saccharomyces cerevisiae. J Cell Biol. 1999 Apr 05; 145(1):69-81.
Score: 0.035
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A versatile set of vectors for constitutive and regulated gene expression in Pichia pastoris. Yeast. 1998 Jun 15; 14(8):783-90.
Score: 0.034
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Translocation arrest of an intramitochondrial sorting signal next to Tim11 at the inner-membrane import site. Nature. 1996 Dec 12; 384(6609):585-8.
Score: 0.030
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Saccharomyces cerevisiae mitochondria lack a bacterial-type sec machinery. Protein Sci. 1996 Dec; 5(12):2651-2.
Score: 0.030
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Cell biology: alternatives to baker's yeast. Curr Biol. 1996 Dec 01; 6(12):1570-2.
Score: 0.030
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Hsp60-independent protein folding in the matrix of yeast mitochondria. EMBO J. 1996 Feb 15; 15(4):764-74.
Score: 0.029
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Isolation of highly purified mitochondria from Saccharomyces cerevisiae. Methods Enzymol. 1995; 260:213-23.
Score: 0.026
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Cloning and disruption of the gene encoding yeast mitochondrial chaperonin 10, the homolog of E. coli groES. FEBS Lett. 1993 Dec 13; 335(3):358-60.
Score: 0.025
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Identification and functional analysis of chaperonin 10, the groES homolog from yeast mitochondria. Proc Natl Acad Sci U S A. 1993 Dec 01; 90(23):10967-71.
Score: 0.024
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Yeast and mammals utilize similar cytosolic components to drive protein transport through the Golgi complex. Proc Natl Acad Sci U S A. 1986 Mar; 83(6):1622-6.
Score: 0.014
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Monitoring changes in the subcellular location of proteins in S. cerevisiae. Methods Mol Biol. 2004; 241:299-311.
Score: 0.012
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A yeast t-SNARE involved in endocytosis. Mol Biol Cell. 1998 Oct; 9(10):2873-89.
Score: 0.009
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What is the driving force for protein import into mitochondria? Biochim Biophys Acta. 1997 Jan 16; 1318(1-2):71-8.
Score: 0.008
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Dynamic interaction between Isp45 and mitochondrial hsp70 in the protein import system of the yeast mitochondrial inner membrane. Proc Natl Acad Sci U S A. 1994 Dec 20; 91(26):12818-22.
Score: 0.007