Simple yet functional phosphate-loop proteins

Maria Luisa Romero Romero; Fan Yang; Yu-Ru Lin; Agnes Toth-Petroczy; Igor N Berezovsky; Alexander Goncearenco; Wen Yang; Alon Wellner; Fanindra Kumar-Deshmukh; Michal Sharon; David Baker; Gabriele Varani; Dan S Tawfik

doi:10.1073/pnas.1812400115

Simple yet functional phosphate-loop proteins

Maria Luisa Romero Romero, Fan Yang, Yu-Ru Lin, Agnes Toth-Petroczy, Igor N Berezovsky, Alexander Goncearenco, Wen Yang, Alon Wellner, Fanindra Kumar-Deshmukh, Michal Sharon, David Baker, Gabriele Varani, Dan S Tawfik

Weizmann Institute of Science

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

Abstract

Abundant and essential motifs, such as phosphate-binding loops (P-loops), are presumed to be the seeds of modern enzymes. The Walker-A P-loop is absolutely essential in modern NTPase enzymes, in mediating binding, and transfer of the terminal phosphate groups of NTPs. However, NTPase function depends on many additional active-site residues placed throughout the protein's scaffold. Can motifs such as P-loops confer function in a simpler context? We applied a phylogenetic analysis that yielded a sequence logo of the putative ancestral Walker-A P-loop element: a β-strand connected to an α-helix via the P-loop. Computational design incorporated this element into de novo designed β-α repeat proteins with relatively few sequence modifications. We obtained soluble, stable proteins that unlike modern P-loop NTPases bound ATP in a magnesium-independent manner. Foremost, these simple P-loop proteins avidly bound polynucleotides, RNA, and single-strand DNA, and mutations in the P-loop's key residues abolished binding. Binding appears to be facilitated by the structural plasticity of these proteins, including quaternary structure polymorphism that promotes a combined action of multiple P-loops. Accordingly, oligomerization enabled a 55-aa protein carrying a single P-loop to confer avid polynucleotide binding. Overall, our results show that the P-loop Walker-A motif can be implemented in small and simple β-α repeat proteins, primarily as a polynucleotide binding motif.

Original language	English
Pages (from-to)	E11943-E11950
Number of pages	8
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	115
Issue number	51
Early online date	30 Nov 2018
DOIs	https://doi.org/10.1073/pnas.1812400115
State	Published - 18 Dec 2018

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Romero Romero, M. L., Yang, F., Lin, Y.-R., Toth-Petroczy, A., Berezovsky, I. N., Goncearenco, A., Yang, W., Wellner, A., Kumar-Deshmukh, F., Sharon, M., Baker, D., Varani, G., & Tawfik, D. S. (2018). Simple yet functional phosphate-loop proteins. Proceedings of the National Academy of Sciences of the United States of America, 115(51), E11943-E11950. https://doi.org/10.1073/pnas.1812400115

@article{0ab045cc4fd449f1a435a98a502e60d0,

title = "Simple yet functional phosphate-loop proteins",

abstract = "Abundant and essential motifs, such as phosphate-binding loops (P-loops), are presumed to be the seeds of modern enzymes. The Walker-A P-loop is absolutely essential in modern NTPase enzymes, in mediating binding, and transfer of the terminal phosphate groups of NTPs. However, NTPase function depends on many additional active-site residues placed throughout the protein's scaffold. Can motifs such as P-loops confer function in a simpler context? We applied a phylogenetic analysis that yielded a sequence logo of the putative ancestral Walker-A P-loop element: a β-strand connected to an α-helix via the P-loop. Computational design incorporated this element into de novo designed β-α repeat proteins with relatively few sequence modifications. We obtained soluble, stable proteins that unlike modern P-loop NTPases bound ATP in a magnesium-independent manner. Foremost, these simple P-loop proteins avidly bound polynucleotides, RNA, and single-strand DNA, and mutations in the P-loop's key residues abolished binding. Binding appears to be facilitated by the structural plasticity of these proteins, including quaternary structure polymorphism that promotes a combined action of multiple P-loops. Accordingly, oligomerization enabled a 55-aa protein carrying a single P-loop to confer avid polynucleotide binding. Overall, our results show that the P-loop Walker-A motif can be implemented in small and simple β-α repeat proteins, primarily as a polynucleotide binding motif.",

author = "{Romero Romero}, {Maria Luisa} and Fan Yang and Yu-Ru Lin and Agnes Toth-Petroczy and Berezovsky, {Igor N} and Alexander Goncearenco and Wen Yang and Alon Wellner and Fanindra Kumar-Deshmukh and Michal Sharon and David Baker and Gabriele Varani and Tawfik, {Dan S}",

note = "We thank Dr. Irina Shin, Dr. Aharon Rabinkov, and Dr. Yael Fridmann Sirkis for assistance with SPR and MST instrumentation; and Dr. Mark Karpasas for assistance with MALDI-TOFF MS experiments. Funding by the Israel Science Foundation (Grant 980/14) and the Sasson & Marjorie Peress Philanthropic Fund are gratefully acknowledged. D.S.T. is the Nella and Leo Benoziyo Professor of Biochemistry. M.L.R.R. received support from the Koshland Foundation, a McDonald-Leapman grant, and the Ramon Areces Foundation. Work in the G.V. group was supported by the NSF and the NIH (Grants R35 GM126942 and RO1 GM103834). M.L.R.R., M.S., D.B., G.V., and D.S.T. designed research; M.L.R.R., F.Y., Y.-R.L., A.T.-P., I.N.B., A.G., W.Y., A.W., and F.K.-D. performed research; M.L.R.R. and D.S.T. analyzed data; and M.L.R.R., G.V., and D.S.T. wrote the paper.",

year = "2018",

month = dec,

day = "18",

doi = "10.1073/pnas.1812400115",

language = "الإنجليزيّة",

volume = "115",

pages = "E11943--E11950",

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}

Romero Romero, ML, Yang, F, Lin, Y-R, Toth-Petroczy, A, Berezovsky, IN, Goncearenco, A, Yang, W, Wellner, A, Kumar-Deshmukh, F, Sharon, M, Baker, D, Varani, G & Tawfik, DS 2018, 'Simple yet functional phosphate-loop proteins', Proceedings of the National Academy of Sciences of the United States of America, vol. 115, no. 51, pp. E11943-E11950. https://doi.org/10.1073/pnas.1812400115

TY - JOUR

T1 - Simple yet functional phosphate-loop proteins

AU - Romero Romero, Maria Luisa

AU - Yang, Fan

AU - Lin, Yu-Ru

AU - Toth-Petroczy, Agnes

AU - Berezovsky, Igor N

AU - Goncearenco, Alexander

AU - Yang, Wen

AU - Wellner, Alon

AU - Kumar-Deshmukh, Fanindra

AU - Sharon, Michal

AU - Baker, David

AU - Varani, Gabriele

AU - Tawfik, Dan S

N1 - We thank Dr. Irina Shin, Dr. Aharon Rabinkov, and Dr. Yael Fridmann Sirkis for assistance with SPR and MST instrumentation; and Dr. Mark Karpasas for assistance with MALDI-TOFF MS experiments. Funding by the Israel Science Foundation (Grant 980/14) and the Sasson & Marjorie Peress Philanthropic Fund are gratefully acknowledged. D.S.T. is the Nella and Leo Benoziyo Professor of Biochemistry. M.L.R.R. received support from the Koshland Foundation, a McDonald-Leapman grant, and the Ramon Areces Foundation. Work in the G.V. group was supported by the NSF and the NIH (Grants R35 GM126942 and RO1 GM103834). M.L.R.R., M.S., D.B., G.V., and D.S.T. designed research; M.L.R.R., F.Y., Y.-R.L., A.T.-P., I.N.B., A.G., W.Y., A.W., and F.K.-D. performed research; M.L.R.R. and D.S.T. analyzed data; and M.L.R.R., G.V., and D.S.T. wrote the paper.

PY - 2018/12/18

Y1 - 2018/12/18

N2 - Abundant and essential motifs, such as phosphate-binding loops (P-loops), are presumed to be the seeds of modern enzymes. The Walker-A P-loop is absolutely essential in modern NTPase enzymes, in mediating binding, and transfer of the terminal phosphate groups of NTPs. However, NTPase function depends on many additional active-site residues placed throughout the protein's scaffold. Can motifs such as P-loops confer function in a simpler context? We applied a phylogenetic analysis that yielded a sequence logo of the putative ancestral Walker-A P-loop element: a β-strand connected to an α-helix via the P-loop. Computational design incorporated this element into de novo designed β-α repeat proteins with relatively few sequence modifications. We obtained soluble, stable proteins that unlike modern P-loop NTPases bound ATP in a magnesium-independent manner. Foremost, these simple P-loop proteins avidly bound polynucleotides, RNA, and single-strand DNA, and mutations in the P-loop's key residues abolished binding. Binding appears to be facilitated by the structural plasticity of these proteins, including quaternary structure polymorphism that promotes a combined action of multiple P-loops. Accordingly, oligomerization enabled a 55-aa protein carrying a single P-loop to confer avid polynucleotide binding. Overall, our results show that the P-loop Walker-A motif can be implemented in small and simple β-α repeat proteins, primarily as a polynucleotide binding motif.

AB - Abundant and essential motifs, such as phosphate-binding loops (P-loops), are presumed to be the seeds of modern enzymes. The Walker-A P-loop is absolutely essential in modern NTPase enzymes, in mediating binding, and transfer of the terminal phosphate groups of NTPs. However, NTPase function depends on many additional active-site residues placed throughout the protein's scaffold. Can motifs such as P-loops confer function in a simpler context? We applied a phylogenetic analysis that yielded a sequence logo of the putative ancestral Walker-A P-loop element: a β-strand connected to an α-helix via the P-loop. Computational design incorporated this element into de novo designed β-α repeat proteins with relatively few sequence modifications. We obtained soluble, stable proteins that unlike modern P-loop NTPases bound ATP in a magnesium-independent manner. Foremost, these simple P-loop proteins avidly bound polynucleotides, RNA, and single-strand DNA, and mutations in the P-loop's key residues abolished binding. Binding appears to be facilitated by the structural plasticity of these proteins, including quaternary structure polymorphism that promotes a combined action of multiple P-loops. Accordingly, oligomerization enabled a 55-aa protein carrying a single P-loop to confer avid polynucleotide binding. Overall, our results show that the P-loop Walker-A motif can be implemented in small and simple β-α repeat proteins, primarily as a polynucleotide binding motif.

UR - http://www.scopus.com/inward/record.url?scp=85058692721&partnerID=8YFLogxK

U2 - 10.1073/pnas.1812400115

DO - 10.1073/pnas.1812400115

M3 - مقالة

C2 - 30504143

SN - 0027-8424

VL - 115

SP - E11943-E11950

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 51

ER -

Simple yet functional phosphate-loop proteins

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