Cooption of polyalanine tract into a repressor domain in the mammalian transcription factor HoxA11

Vincent J. Lynch; Gunter P. Wagner

doi:10.1002/jez.b.23063

Cooption of polyalanine tract into a repressor domain in the mammalian transcription factor HoxA11

Vincent J. Lynch
, Gunter P. Wagner

Biological Sciences

Yale University

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

An enduring problem in biology is explaining how novel functions of genes originated and how those functions diverge between species. Despite detailed studies on the functional evolution of a few proteins, the molecular mechanisms by which protein functions have evolved are almost entirely unknown. Here, we show that a polyalanine tract in the homeodomain transcription factor HoxA11 arose in the stem-lineage of mammals and functions as an autonomous repressor module by physically interacting with the PAH domains of SIN3 proteins. These results suggest that long polyalanine tracts, which are common in transcription factors and often associated with disease, may tend to function as repressor domains and can contribute to the diversification of transcription factor functions despite the deleterious consequences of polyalanine tract expansion.

Original language	English
Pages (from-to)	486-495
Number of pages	10
Journal	Journal of Experimental Zoology Part B: Molecular and Developmental Evolution
Volume	340
Issue number	8
DOIs	https://doi.org/10.1002/jez.b.23063
State	Published - Dec 2023

Keywords

EvoDevo
HoxA11
cis-regulatory paradigm
regulatory evolution
transcription factor

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10.1002/jez.b.23063

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title = "Cooption of polyalanine tract into a repressor domain in the mammalian transcription factor HoxA11",

abstract = "An enduring problem in biology is explaining how novel functions of genes originated and how those functions diverge between species. Despite detailed studies on the functional evolution of a few proteins, the molecular mechanisms by which protein functions have evolved are almost entirely unknown. Here, we show that a polyalanine tract in the homeodomain transcription factor HoxA11 arose in the stem-lineage of mammals and functions as an autonomous repressor module by physically interacting with the PAH domains of SIN3 proteins. These results suggest that long polyalanine tracts, which are common in transcription factors and often associated with disease, may tend to function as repressor domains and can contribute to the diversification of transcription factor functions despite the deleterious consequences of polyalanine tract expansion.",

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AB - An enduring problem in biology is explaining how novel functions of genes originated and how those functions diverge between species. Despite detailed studies on the functional evolution of a few proteins, the molecular mechanisms by which protein functions have evolved are almost entirely unknown. Here, we show that a polyalanine tract in the homeodomain transcription factor HoxA11 arose in the stem-lineage of mammals and functions as an autonomous repressor module by physically interacting with the PAH domains of SIN3 proteins. These results suggest that long polyalanine tracts, which are common in transcription factors and often associated with disease, may tend to function as repressor domains and can contribute to the diversification of transcription factor functions despite the deleterious consequences of polyalanine tract expansion.

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KW - cis-regulatory paradigm

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Cooption of polyalanine tract into a repressor domain in the mammalian transcription factor HoxA11

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