Title |
Unexpected Requirement of Small Amino Acids at Position 183 for DNA Binding in the Escherichia coli cAMP Receptor Protein |
Author |
Marcus Carranza1, Amanda Rea1, Daisy Pacheco1, Christian Montiel1, Jin Park2, and Hwan Youn1* |
Address |
1Department of Biology, California State University Fresno, Fresno, CA 93740, USA, 2Department of Computer Science, California State University Fresno, Fresno, CA 93740, USA |
Bibliography |
Journal of Microbiology, 62(10),871–882, 2024,
|
DOI |
10.1007/s12275-024-00169-2
|
Key Words |
cAMP receptor protein · Escherichia coli · Val183 · DNA binding · Helix-turn-helix · F-helix |
Abstract |
The Escherichia coli cAMP receptor protein (CRP) relies on the F-helix, the recognition helix of the helix-turn-helix motif,
for DNA binding. The importance of the CRP F-helix in DNA binding is well-established, yet there is little information on
the roles of its non-base-contacting residues. Here, we show that a CRP F-helix position occupied by a non-base-contacting
residue Val183 bears an unexpected importance in DNA binding. Codon randomization and successive in vivo screening
selected six amino acids (alanine, cysteine, glycine, serine, threonine, and valine) at CRP position 183 to be compatible
with DNA binding. These amino acids are quite different in their amino acid properties (polar, non-polar, hydrophobicity),
but one commonality is that they are all relatively small. Larger amino acid substitutions such as histidine, methionine, and
tyrosine were made site-directedly and showed to have no detectable DNA binding, further supporting the requirement of
small amino acids at CRP position 183. Bioinformatics analysis revealed that small amino acids (92.15% valine and 7.75%
alanine) exclusively occupy the position analogous to CRP Val183 in 1,007 core CRP homologs, consistent with our mutant
data. However, in extended CRP homologs comprising 3700 proteins, larger amino acids could also occupy the position
analogous to CRP Val183 albeit with low occurrence. Another bioinformatics analysis suggested that large amino acids
could be tolerated by compensatory small-sized amino acids at their neighboring positions. A full understanding of the unexpected
requirement of small amino acids at CRP position 183 for DNA binding entails the verification of the hypothesized
compensatory change(s) in CRP. |