徐全乐等《Journal of Agricultural and Food Chemistry》2021年

作者: 来源: 发布日期:2021-02-26 浏览次数:

论文题目:β‑Cyanoalanine Synthase Regulates the Accumulation of β‑ODAP via Interaction with Serine Acetyltransferase in Lathyrus sativus

论文作者:Yaoyao Song,Lei Wang,Fengjuan Liu,Chengjin Jiao,Hao Nan,Xiao Shen,Hong Chen,Yifan Li,Beilei Lei,Jinglong Jiang,Peng Chen and Quanle Xu

非蛋白氨基酸β-N-草酰-L-a,β-二氨基丙酸(β--N-oxalyl-L-a,b- diaminopropionic acid,β-ODAP)是山黧豆( Lathyrus sativus )中的重要神经激活性物质。长期、过量摄入山黧豆及β-ODAP会造成人畜运动神经元损伤性疾病,称为神经性山黧豆中毒。前期研究结果表明,β-ODAP的生物合成与硫代谢等基础代谢途径密切相关。本研究采用体外酶活检测证实了β-腈基丙氨酸合成酶(β-cyanoalanine synthase,β-CAS)是合成β-ODAP重要前体物质β-异噁唑-5-酮-丙氨酸(β-(isoxazoline-5-on-2-yl)-L-alanine,BIA)的关键酶。该酶表现为β-CAS和半胱氨酸合成酶(cysteine synthase,CS)两种酶活,属于磷酸吡哆醛(pyridoxal phosphate,PLP)依赖的双功能酶。多序列比对及酶活检测表明,M135、M235、S239是调控β-CAS:CS酶活性大小的关键氨基酸位点,β-CAS的M135T/M235S/S239T突变体主要表现为CS活性。利用Y2H、BiFC和pull-down证实,β-CAS与丝氨酸乙酰基转移酶(serine acetyltransferase,SAT)在线粒体(mitochondria)中形成半胱氨酸调控复合物mCRC(cysteine regulatory complex),并通过下调β-CAS、上调SAT酶活起到β-ODAP生物合成分子开关的作用。上述结果加深了对于山黧豆β-ODAP生物合成分子机制的理解。

论文摘要:β-N-Oxalyl-L-α,β-diaminopropionic acid (β-ODAP), found in Lathyrus sativus at first, causes a neurological disease,lathyrism, when over ingested in an unbalanced diet. Our previous research suggested that β-ODAP biosynthesis is related to sulfurmetabolism. In this study, β-cyanoalanine synthase (β-CAS) was confirmed to be responsible for β-ODAP biosynthesis via in vitroenzymatic analysis. LsCAS was found to be pyridoxal phosphate (PLP)-dependent via spectroscopic analysis and dual functional viaenzymatic activity analysis. Generation of a M135T/M235S/S239T triple mutant of LsCAS, which are the key sites to control theratio of CAS/cysteine synthase (CS) activity, switches reaction chemistry to that of a CS. LsCAS interactions were further screenedand verified via Y2H, BiFC and pull-down assay. It was suggested that LsSAT2 interacts and forms a cysteine regulatory complex (CRC) with LsCAS in mitochondria, which improves LsSAT while reduces LsCAS activities to affect β-ODAP content positively.These results provide new insights into the molecular regulation of β-ODAP content in L. sativus.

论文链接:https://dx.doi.org/10.1021/acs.jafc.0c07542