Proteomics

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Identifying membrane-bound transcriptional regulatory proteins from rare but evolutionarily conserved domain combinations


ABSTRACT: Transcriptional regulatory proteins, including transcription factors (TFs) and chromatin modifiers, must act inside cell nuclei, but membrane-bound transcription factors (MBTFs) are first anchored in membranes before nuclear translocation. Known MBTFs are vital for processes from myelin expression (MYRF) to cholesterol homeostasis (SREBP), yet their overall diversity remains uncharted. We hypothesized that additional membrane-bound transcriptional regulators (MBTRs) might exist, so we developed a bioinformatics screen to prioritize membrane proteins that are likely to regulate transcription. Our approach leverages domain composition by positing that surprising domain combinations suggest novel biological functions. We searched for rare but evolutionarily conserved pairings of transmembrane domains with domains likely involved in transcriptional regulation. Our method rediscovered known MBTFs and membrane-bound histone kinases, and identified novel MBTR candidates, including transmembrane histone N-acetyltransferases, a putative new subclass of MBTFs that share MYRF's DNA-binding domain, and the prolactin regulatory element-binding protein PREB (SEC12). Assays using recombinant PREB demonstrated that the transmembrane domain is the determinant of PREB subcellular localization, governing its distribution between the membrane and the nucleus in mouse embryonic stem cells. These findings underscore the utility of our method and provide a framework for investigating MBTRs that likely facilitate the integration of extracellular signals with transcriptional responses.

INSTRUMENT(S):

ORGANISM(S): Homo Sapiens (human)

TISSUE(S): Embryo, Placenta, Cell Culture, Placental Villous Trophoblast, Embryonic Stem Cell

SUBMITTER: Ujwal Punyamurtula  

LAB HEAD: Edward Marcotte

PROVIDER: PXD076503 | Pride | 2026-06-29

REPOSITORIES: Pride

Dataset's files

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Action DRS
ESC-rep1_insoluble_100724_1.raw Raw
ESC-rep1_insoluble_100724_2.raw Raw
ESC-rep1_insoluble_100724_3.raw Raw
ESC-rep1_soluble_100724_1.raw Raw
ESC-rep1_soluble_100724_2.raw Raw
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Publications

Identifying membrane-bound transcriptional regulatory proteins from rare but evolutionarily conserved domain combinations.

Lee Muyoung M   Jang Yeejin Y   Guo Qingqing Q   Punyamurtula Ujwal U   Choi Joonhyuk J   Kim Jonghwan J   Marcotte Edward M EM  

Nucleic acids research 20260601 12


Transcriptional regulatory proteins, including transcription factors (TFs) and chromatin modifiers, must act inside cell nuclei, but membrane-bound transcription factors (MBTFs) are first anchored in membranes before nuclear translocation. Known MBTFs are vital for processes from myelin expression (MYRF) to cholesterol homeostasis (SREBP), yet their overall diversity remains uncharted. We hypothesized that additional membrane-bound transcriptional regulators (MBTRs) might exist, so we developed  ...[more]

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