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Structural basis and synergism of ATP and Na + activation in bacterial K + uptake system KtrAB.

Wesley Tien ChiangYao-Kai ChangWei-Han HuiShu-Wei ChangChen-Yi LiaoYi-Chuan ChangChun-Jung ChenWei-Chen WangChien-Chen LaiChun-Hsiung WangSiou-Ying LuoYa-Ping HuangShan-Ho ChouTzyy-Leng HorngMing-Hon HouStephen P MuenchRen-Shiang ChenMing-Daw TsaiNien-Jen Hu
Published in: Nature communications (2024)
The K + uptake system KtrAB is essential for bacterial survival in low K + environments. The activity of KtrAB is regulated by nucleotides and Na + . Previous studies proposed a putative gating mechanism of KtrB regulated by KtrA upon binding to ATP or ADP. However, how Na + activates KtrAB and the Na + binding site remain unknown. Here we present the cryo-EM structures of ATP- and ADP-bound KtrAB from Bacillus subtilis (BsKtrAB) both solved at 2.8 Å. A cryo-EM density at the intra-dimer interface of ATP-KtrA was identified as Na + , as supported by X-ray crystallography and ICP-MS. Thermostability assays and functional studies demonstrated that Na + binding stabilizes the ATP-bound BsKtrAB complex and enhances its K + flux activity. Comparing ATP- and ADP-BsKtrAB structures suggests that BsKtrB Arg417 and Phe91 serve as a channel gate. The synergism of ATP and Na + in activating BsKtrAB is likely applicable to Na + -activated K + channels in central nervous system.
Keyphrases
  • high resolution
  • bacillus subtilis
  • structural basis
  • mass spectrometry
  • magnetic resonance imaging
  • signaling pathway
  • computed tomography
  • single cell