Structural basis for LEAFY floral switch function and similarity with helix-turn-helix proteins
نویسندگان
چکیده
منابع مشابه
Structural basis for LEAFY floral switch function and similarity with helix-turn-helix proteins.
The LEAFY (LFY) protein is a key regulator of flower development in angiosperms. Its gradually increased expression governs the sharp floral transition, and LFY subsequently controls the patterning of flower meristems by inducing the expression of floral homeotic genes. Despite a wealth of genetic data, how LFY functions at the molecular level is poorly understood. Here, we report crystal struc...
متن کاملHTHquery: a method for detecting DNA-binding proteins with a helix-turn-helix structural motif
SUMMARY HTHquery is a web-based service to determine if a protein structure has a helix-turn-helix structural motif which could bind to DNA. It is based on a similarity with a set of structural templates, the accessibility of a putative structural motif and a positive electrostatic potential in the neighbourhood of the putative motif. A set of scores are computed, based on each template, using ...
متن کاملDNA recognition by proteins with the helix-turn-helix motif.
INTRODUCTION......... . ...... ................. .. ................. . .... . . ................. ......... 933 NOTIONS ABOUT RECOGNITION..... ................ . . .............. . . ..... . ......... . . ..... 934 THE HTH MOTIF... ..... ....... ................. .. . ................ .... . . .... ........... . .. . ..... .. 936 STRUCTURES.... . . . ..... .. ......... . . ................ ......
متن کامل- turn - helix ; DNA - binding proteins )
The Saccharomyces cerevisiae CDC43 gene product is involved in establishing cell polarity during the cell-division cycle. When grown at restrictive temperatures, temperature-sensitive cdc43 mutants are unable to form buds and display delocalized cell-surface deposition [Adams et al., J. Cell Biol. (1990) in press]. We have isolated a cdc43-complementing plasmid from a yeast genomic-DNA library ...
متن کاملDNA recognition and superstructure formation by helix-turn-helix proteins.
The way helix-turn-helix proteins recognize DNA is analysed by comparing their sequences, structures, and binding specificities. Individual recognition helices in these proteins bind to four DNA base pairs with the same geometry. However, pairs of recognition helices in the protein dimers can have different separations and orientations. These differences are used for discriminating between DNAs...
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ژورنال
عنوان ژورنال: The EMBO Journal
سال: 2008
ISSN: 0261-4189,1460-2075
DOI: 10.1038/emboj.2008.184