Gal4 transcription factor

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A subunit of the 26 S proteasome Sug2 regulatory protein has a molecular and functional interaction with Gal4 function. Proteolytic turnover of the Gal4 transcription factor is not required for function in vivo. The native Gal4 monoubiquitination protects from 19S-mediated destabilizing under

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is a positive regulator of gene expression of galactose-induced genes. This protein represents a large fungal family of transcription factors, Gal4 family, which includes over 50 members in the yeast

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Hashimoto H, Kikuchi Y, Nogi Y, Fukasawa T (1983). "Regulation of expression of the galactose gene cluster in Saccharomyces cerevisiae. Isolation and characterization of the regulatory gene GAL4".

1505:"Function of positive regulatory gene gal4 in the synthesis of galactose pathway enzymes in Saccharomyces cerevisiae: evidence that the GAL81 region codes for part of the gal4 protein" 433:

In the Gal4 reverted mutant Gal4C-62 mutant, a sequence (QTAY N AFMN) with the 9aaTAD pattern emerged and restored activation function of the Gal4 protein.

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The inhibitory protein Gal80 is sequestered by regulatory protein Gal3 in Galactose dependent manner. This allows for Gal4 to work when there is galactose.

1832:"GAL11 (SPT13), a transcriptional regulator of diverse yeast genes, affects the phosphorylation state of GAL4, a highly specific transcriptional activator" 995:

Klar AJ, Halvorson HO (1974). "Studies on the positive regulatory gene, GAL4, in regulation of galactose catabolic enzymes in Saccharomyces cerevisiae".

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Klar AJ, Halvorson HO (1974). "Studies on the positive regulatory gene, GAL4, in regulation of galactose catabolic enzymes in Saccharomyces cerevisiae".

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Keegan L, Gill G, Ptashne M (February 1986). "Separation of DNA binding from the transcription-activating function of a eukaryotic regulatory protein".

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The Gal4 loss-of-function mutant gal4-64 (1-852 aa, deletion of the Gal4 C-terminal 29 aa) lost both interaction with Gal80 and activation function.

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Two executive domains, DNA binding and activation domains, provide key function of the Gal4 protein conforming to most of the transcription factors.

494:, the Gal4 protein and Gal4 upstream activating region (UAS) are used to study the gene expression and function in organisms such as the fruit fly. 2189:"Use of a genetically introduced cross-linker to identify interaction sites of acidic activators within native transcription factor IID and SAGA" 1552:

Johnston SA, Salmeron JM, Dincher SS (July 1987). "Interaction of positive and negative regulatory proteins in the galactose regulon of yeast".

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Johnston SA, Salmeron JM, Dincher SS (July 1987). "Interaction of positive and negative regulatory proteins in the galactose regulon of yeast".

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The Gal4 and inhibitory protein Gal80 have found application in a genetics technique for creating individually labeled homozygous cells called

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Nalley K, Johnston SA, Kodadek T (August 2006). "Proteolytic turnover of the Gal4 transcription factor is not required for function in vivo".

2584: 127: 345:, a technique for controlling expression in insects. In yeast, Gal4 is by default repressed by Gal80, and activated in the presence of 1640:"A sequence-specific transcription activator motif and powerful synthetic variants that bind Mediator using a fuzzy protein interface" 99: 2604: 1358:"Dilution kinetic studies of yeast populations: in vivo aggregation of galactose utilizing enzymes and positive regulator molecules" 204: 146: 49: 1983:"GAL11 protein, an auxiliary transcription activator for genes encoding galactose-metabolizing enzymes in Saccharomyces cerevisiae" 1156:"The interaction between an acidic transcriptional activator and its inhibitor. The molecular basis of Gal4p recognition by Gal80p" 234: 106: 1250:"Rapid GAL gene switch of Saccharomyces cerevisiae depends on nuclear Gal3, not nucleocytoplasmic trafficking of Gal3 and Gal80" 255: 2629: 179: 84: 77: 41: 725:

Marmorstein R, Carey M, Ptashne M, Harrison SC (April 1992). "DNA recognition by GAL4: structure of a protein-DNA complex".

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Nogi Y, Fukasawa T (October 1980). "A novel mutation that affects utilization of galactose in Saccharomyces cerevisiae".

2031: 326: 2032:"Analysis of Gal4-directed transcription activation using Tra1 mutants selectively defective for interaction with Gal4" 854:

Giniger E, Varnum SM, Ptashne M (April 1985). "Specific DNA binding of GAL4, a positive regulatory protein of yeast".

95: 2230:"The Saccharomyces cerevisiae Srb8-Srb11 complex functions with the SAGA complex during Gal4-activated transcription" 1040:"Regulated expression of the GAL4 activator gene in yeast provides a sensitive genetic switch for glucose repression" 2599: 2634: 2614: 466:

The Gal4 protein interacts also with other mediators of transcription as are Tra1, TAF9, and SAGA/MED15 complex.

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As a part of the Gal4 regulation, inhibitory protein Gal80 recognises and binds to the Gal4 region (853-874 aa).

1699:"The Saccharomyces cerevisiae SPT13/GAL11 gene has both positive and negative regulatory roles in transcription" 314: 2476:"The role of the proteasomal ATPases and activator monoubiquitylation in regulating Gal4 binding to promoters" 2384:"Evidence that proteolysis of Gal4 cannot explain the transcriptional effects of proteasome ATPase mutations" 341:), three enzymes required for galactose metabolism. This binding has also proven useful in constructing the 334: 73: 1924:"Yeast GAL11 protein is a distinctive type transcription factor that enhances basal transcription in vitro" 1595:

Ma J, Ptashne M (March 1987). "Deletion analysis of GAL4 defines two transcriptional activating segments".

2609: 390: 2644: 120: 1748:"Peptides selected to bind the Gal80 repressor are potent transcriptional activation domains in yeast" 1456:"Enzymatic Expression and Genetic Linkage of Genes Controlling Galactose Utilization in Saccharomyces" 776:

Pan T, Coleman JE (March 1990). "The DNA binding domain of GAL4 forms a binuclear metal ion complex".

574:"Comparative amino acid sequence analysis of the C6 zinc cluster family of transcriptional regulators" 2432: 2295: 2043: 1935: 1651: 1310: 1110: 1051: 899:"The DNA binding and activation domains of Gal4p are sufficient for conveying its regulatory signals" 820: 734: 484: 2624: 2619: 2594: 2589: 2456: 1904: 1812: 1620: 1577: 1230: 1020: 879: 758: 655: 554: 2639: 2563: 2505: 2448: 2405: 2364: 2323: 2259: 2210: 2169: 2120: 2071: 2012: 1963: 1896: 1861: 1804: 1769: 1728: 1679: 1612: 1569: 1534: 1485: 1436: 1387: 1338: 1279: 1222: 1187: 1136: 1079: 1012: 977: 928: 871: 836: 793: 750: 707: 647: 603: 546: 2343:"The Gal4 activation domain binds Sug2 protein, a proteasome component, in vivo and in vitro" 2553: 2545: 2495: 2487: 2440: 2395: 2354: 2313: 2303: 2249: 2241: 2200: 2159: 2151: 2110: 2102: 2061: 2051: 2002: 1994: 1953: 1943: 1888: 1851: 1843: 1796: 1759: 1718: 1710: 1669: 1659: 1604: 1561: 1524: 1516: 1475: 1467: 1426: 1418: 1377: 1369: 1328: 1318: 1269: 1261: 1214: 1177: 1167: 1126: 1118: 1069: 1059: 1004: 967: 959: 918: 910: 863: 828: 785: 742: 697: 689: 637: 593: 585: 538: 487:

to screen or to assay protein-protein interactions in eukaryotic cells from yeast to human.

678:"Gene activation by dissociation of an inhibitor from a transcriptional activation domain" 491: 377:

fungal family. It forms a Zn – cysteines thiolate cluster, and specifically recognizes UAS

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Please expand the article to include this information. Further details may exist on the

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The activation domain Gal4 is inhibited by C-terminal domain in some Gal4 constructs.

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Ferdous A, Sikder D, Gillette T, Nalley K, Kodadek T, Johnston SA (January 2007).

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Chang C, Gonzalez F, Rothermel B, Sun L, Johnston SA, Kodadek T (August 2001).

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Klein J, Nolden M, Sanders SL, Kirchner J, Weil PA, Melcher K (February 2003).

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