One-Pot Total Synthesis of a Post-translationally Modified Max Transcription Factor Sheds Light on Ser-Phosphorylation and Lys-Acetylation Crosstalk in DNA Binding

Raj V. Nithun; Shada Khoury; Muhammad Jbara

doi:10.1021/acs.orglett.5c00978

One-Pot Total Synthesis of a Post-translationally Modified Max Transcription Factor Sheds Light on Ser-Phosphorylation and Lys-Acetylation Crosstalk in DNA Binding

Raj V. Nithun, Shada Khoury, Muhammad Jbara

School of Chemistry

Tel Aviv University

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

Abstract

We report a one-pot total synthesis of the transcription factor Max in seven consecutive steps, starting from three peptide segments and employing native chemical ligation. The developed synthesis facilitates the generation of homogeneous Max analogues bearing defined transformations within hours in excellent yields, enabling us to probe the effect of the crosstalk between Ser-phosphorylation and Lys-acetylation on the Max function. Our findings reveal that these post-translational modifications significantly inhibit DNA-binding activity, potentially by disrupting essential Max-DNA interactions.

Original language	English
Journal	Organic Letters
DOIs	https://doi.org/10.1021/acs.orglett.5c00978
State	Accepted/In press - 2025

All Science Journal Classification (ASJC) codes

Biochemistry
Physical and Theoretical Chemistry
Organic Chemistry

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10.1021/acs.orglett.5c00978

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title = "One-Pot Total Synthesis of a Post-translationally Modified Max Transcription Factor Sheds Light on Ser-Phosphorylation and Lys-Acetylation Crosstalk in DNA Binding",

abstract = "We report a one-pot total synthesis of the transcription factor Max in seven consecutive steps, starting from three peptide segments and employing native chemical ligation. The developed synthesis facilitates the generation of homogeneous Max analogues bearing defined transformations within hours in excellent yields, enabling us to probe the effect of the crosstalk between Ser-phosphorylation and Lys-acetylation on the Max function. Our findings reveal that these post-translational modifications significantly inhibit DNA-binding activity, potentially by disrupting essential Max-DNA interactions.",

author = "Nithun, {Raj V.} and Shada Khoury and Muhammad Jbara",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors. Published by American Chemical Society.",

year = "2025",

doi = "10.1021/acs.orglett.5c00978",

language = "الإنجليزيّة",

journal = "Organic Letters",

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AU - Nithun, Raj V.

AU - Khoury, Shada

AU - Jbara, Muhammad

PY - 2025

Y1 - 2025

N2 - We report a one-pot total synthesis of the transcription factor Max in seven consecutive steps, starting from three peptide segments and employing native chemical ligation. The developed synthesis facilitates the generation of homogeneous Max analogues bearing defined transformations within hours in excellent yields, enabling us to probe the effect of the crosstalk between Ser-phosphorylation and Lys-acetylation on the Max function. Our findings reveal that these post-translational modifications significantly inhibit DNA-binding activity, potentially by disrupting essential Max-DNA interactions.

AB - We report a one-pot total synthesis of the transcription factor Max in seven consecutive steps, starting from three peptide segments and employing native chemical ligation. The developed synthesis facilitates the generation of homogeneous Max analogues bearing defined transformations within hours in excellent yields, enabling us to probe the effect of the crosstalk between Ser-phosphorylation and Lys-acetylation on the Max function. Our findings reveal that these post-translational modifications significantly inhibit DNA-binding activity, potentially by disrupting essential Max-DNA interactions.

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U2 - 10.1021/acs.orglett.5c00978

DO - 10.1021/acs.orglett.5c00978

M3 - مقالة

C2 - 40163800

SN - 1523-7060

JO - Organic Letters

JF - Organic Letters

ER -

One-Pot Total Synthesis of a Post-translationally Modified Max Transcription Factor Sheds Light on Ser-Phosphorylation and Lys-Acetylation Crosstalk in DNA Binding

Abstract

All Science Journal Classification (ASJC) codes

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