TY - JOUR
T1 - Defects in the central metabolism prevent thymineless death in Escherichia coli, while still allowing significant protein synthesis
AU - Khan, Sharik R.
AU - Kuzminov, Andrei
N1 - Publisher Copyright:
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PY - 2024/11
Y1 - 2024/11
N2 - Starvation of Escherichia coli thyA auxotrophs for the required thymine or thymidine leads to the cessation of DNA synthesis and, unexpectedly, to thymineless death (TLD). Previously, TLD-alleviating defects were identified by the candidate gene approach, for their contribution to replication initiation, fork repair, or SOS induction. However, no TLD-blocking mutations were ever found, suggesting a multifactorial nature of TLD. Since (until recently) no unbiased isolation of TLD suppressors was reported, we used enrichment after insertional mutagenesis to systematically isolate TLD suppressors. Our approach was validated by isolation of known TLD-alleviating mutants in recombinational repair. At the same time, and unexpectedly for the current TLD models, most of the isolated suppressors affected general metabolism, while the strongest suppressors impacted the central metabolism. Several temperature-sensitive (Ts) mutants in important/essential functions, like nadA, ribB, or coaA, almost completely suppressed TLD at 42°C. Since blocking protein synthesis completely by chloramphenicol prevents TLD, while reducing protein synthesis to 10% alleviates TLD only slightly, we measured the level of protein synthesis in these mutants at 42°C and found it to be 20-70% of the WT, not enough reduction to explain TLD prevention. We conclude that the isolated central metabolism mutants prevent TLD by affecting specific TLD-promoting functions.
AB - Starvation of Escherichia coli thyA auxotrophs for the required thymine or thymidine leads to the cessation of DNA synthesis and, unexpectedly, to thymineless death (TLD). Previously, TLD-alleviating defects were identified by the candidate gene approach, for their contribution to replication initiation, fork repair, or SOS induction. However, no TLD-blocking mutations were ever found, suggesting a multifactorial nature of TLD. Since (until recently) no unbiased isolation of TLD suppressors was reported, we used enrichment after insertional mutagenesis to systematically isolate TLD suppressors. Our approach was validated by isolation of known TLD-alleviating mutants in recombinational repair. At the same time, and unexpectedly for the current TLD models, most of the isolated suppressors affected general metabolism, while the strongest suppressors impacted the central metabolism. Several temperature-sensitive (Ts) mutants in important/essential functions, like nadA, ribB, or coaA, almost completely suppressed TLD at 42°C. Since blocking protein synthesis completely by chloramphenicol prevents TLD, while reducing protein synthesis to 10% alleviates TLD only slightly, we measured the level of protein synthesis in these mutants at 42°C and found it to be 20-70% of the WT, not enough reduction to explain TLD prevention. We conclude that the isolated central metabolism mutants prevent TLD by affecting specific TLD-promoting functions.
KW - coaA
KW - enrichment
KW - insertional mutagenesis
KW - nadA
KW - ptsN
KW - recF
KW - ribB
KW - suppressors
KW - thymine/thymidine starvation
KW - thymineless death
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U2 - 10.1093/genetics/iyae142
DO - 10.1093/genetics/iyae142
M3 - Article
C2 - 39212478
AN - SCOPUS:85208380335
SN - 0016-6731
VL - 228
JO - Genetics
JF - Genetics
IS - 3
M1 - iyae142
ER -