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Universal principles of membrane protein assembly, composition and evolution

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  • Alan J Situ
  • Tobias S Ulmer

Abstract

Structural diversity in α-helical membrane proteins (MP) arises from variations in helix-helix crossings and contacts that may bias amino acid usage. Here, we reveal systematic changes in transmembrane amino acid frequencies (f) as a function of the number of helices (n). For eukarya, breaks in f(n) trends of packing (Ala, Gly and Pro), polar, and hydrophobic residues identify different MP assembly principles for 2≤n≤7, 8≤n≤12 and n≥13. In bacteria, the first f break already occurs after n = 6 in correlation to an earlier n peak in MP size distribution and dominance of packing over polar interactions. In contrast to the later n brackets, the integration levels of helix bundles continuously increased in the first, most populous brackets indicating the formation of single structural units (domains). The larger first bracket of eukarya relates to a balance of polar and packing interactions that enlarges helix-helix combinatorial possibilities (MP diversity). Between the evolutionary old, packing and new, polar residues f anti-correlations extend over all biological taxa, broadly ordering them according to evolutionary history and allowing f estimates for the earliest forms of life. Next to evolutionary history, the amino acid composition of MP is determined by size (n), proteome diversity, and effective amino acid cost.

Suggested Citation

  • Alan J Situ & Tobias S Ulmer, 2019. "Universal principles of membrane protein assembly, composition and evolution," PLOS ONE, Public Library of Science, vol. 14(8), pages 1-20, August.
    • Handle: RePEc:plo:pone00:0221372
    DOI: 10.1371/journal.pone.0221372
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    References listed on IDEAS

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    1. I. King Jordan & Fyodor A. Kondrashov & Ivan A. Adzhubei & Yuri I. Wolf & Eugene V. Koonin & Alexey S. Kondrashov & Shamil Sunyaev, 2005. "A universal trend of amino acid gain and loss in protein evolution," Nature, Nature, vol. 433(7026), pages 633-638, February.
    2. I. King Jordan & Fyodor A. Kondrashov & Ivan A. Adzhubei & Yuri I. Wolf & Eugene V. Koonin & Alexey S. Kondrashov & Shamil Sunyaev, 2005. "Erratum: A universal trend of amino acid gain and loss in protein evolution," Nature, Nature, vol. 435(7041), pages 528-528, May.
    3. Youxing Jiang & Vanessa Ruta & Jiayun Chen & Alice Lee & Roderick MacKinnon, 2003. "The principle of gating charge movement in a voltage-dependent K+ channel," Nature, Nature, vol. 423(6935), pages 42-48, May.
    4. Chungho Kim & Thomas Schmidt & Eun-Gyung Cho & Feng Ye & Tobias S. Ulmer & Mark H. Ginsberg, 2012. "Basic amino-acid side chains regulate transmembrane integrin signalling," Nature, Nature, vol. 481(7380), pages 209-213, January.
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    1. Zhen Wang & Qing-Pu Zhang & Fei Guo & Hui Ma & Zi-Hui Liang & Chang-Hai Yi & Chun Zhang & Chuan-Feng Chen, 2024. "Self-similar chiral organic molecular cages," Nature Communications, Nature, vol. 15(1), pages 1-10, December.

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