DNA-protein interactions: Difference between revisions

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Ann Taylor, Eric Martz, Michal Harel

Revision as of 03:33, 3 September 2015 view source Ann Taylor (talk \| contribs) 997 edits No edit summary ← Older edit		Revision as of 06:22, 3 September 2015 view source Ann Taylor (talk \| contribs) 997 edits No edit summary Newer edit →
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	== Zinc fingers ==		== Zinc fingers ==
	<scene name='71/711660/Gal4/1'>GAL4</scene> is a transcription factor that induces genes required for the metabolism of galactose, specifically enzymes involved in the conversion of galactose to glucose, and is an example of a zinc finger DNA binding protein. The protein binds as a <scene name='Taylor_Gal4_Sandbox/Dimer/1'>dimer</scene> to a symmetrical 17-base-pair sequence. Each subunit folds into three distinct modules: a compact, <scene name='Taylor_Gal4_Sandbox/Metal_binding_domain/2'>metal binding domain</scene>(residues 8-40), an extended <scene name='Taylor_Gal4_Sandbox/Linker/1'>linker</scene>(41-49), and an <scene name='Taylor_Gal4_Sandbox/Dimerization/1'>alpha-helical dimerization element</scene> (50-64). The small, <scene name='Taylor_Gal4_Sandbox/Zn_binding/1'>Zn(2+)-containing domain</scene>, which contains two metal ions tetrahedrally coordinated by six cysteines. This metal binding domain recognizes a conserved CCG triplet at each end of the site through direct contacts with the <scene name='Taylor_Gal4_Sandbox/Major_groove/1'>major groove</scene>. A short coiled-coil dimerization element imposes 2-fold symmetry. A segment of extended polypeptide chain links the metal-binding module to the dimerization element and specifies the length of the site. The relatively open structure of the complex would allow another protein to bind coordinately with GAL4.		<scene name='71/711660/Gal4/1'>GAL4</scene> is a transcription factor that induces genes required for the metabolism of galactose, specifically enzymes involved in the conversion of galactose to glucose, and is an example of a zinc finger DNA binding protein. The protein binds as a <scene name='Taylor_Gal4_Sandbox/Dimer/1'>dimer</scene> to a symmetrical 17-base-pair sequence. Each subunit folds into three distinct modules: a compact, <scene name='Taylor_Gal4_Sandbox/Metal_binding_domain/2'>metal binding domain</scene>(residues 8-40), an extended <scene name='Taylor_Gal4_Sandbox/Linker/1'>linker</scene>(41-49), and an <scene name='Taylor_Gal4_Sandbox/Dimerization/1'>alpha-helical dimerization element</scene> (50-64). The small, <scene name='Taylor_Gal4_Sandbox/Zn_binding/1'>Zn(2+)-containing domain</scene>, which contains two metal ions tetrahedrally coordinated by six cysteines. This metal binding domain recognizes a conserved <scene name='71/711660/Ccg/1'>CCG triplet</scene> at each end of the site through direct contacts with the <scene name='Taylor_Gal4_Sandbox/Major_groove/1'>major groove</scene>, including hydrogen bonding between a <scene name='71/711660/Gal_4_lys_to_g/1'>lysine and the conserved G</scene>. A short coiled-coil dimerization element imposes 2-fold symmetry. A segment of extended polypeptide chain links the metal-binding module to the dimerization element and specifies the length of the site. The relatively open structure of the complex would allow another protein to bind coordinately with GAL4.