西亚试剂：Hypusine-containing protein eIF5A promotes translation elon

发布时间：2026-03-01

Hypusine-containing protein eIF5A promotes translation elongation

Preeti Saini1, Daniel E. Eyler2, Rachel Green2 & Thomas E. Dever1

1 Laboratory of Gene Regulation and Development, NICHD, National Institutes of Health, Bethesda, Maryland 20892, USA
2 Howard Hughes Medical Institute, Department of Molecular Biology and Genetics, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205, USA

Translation elongation factors facilitate protein synthesis by the ribosome. Previous studies identified two universally conserved translation elongation factors, EF-Tu in bacteria (known as eEF1A in eukaryotes) and EF-G (eEF2), which deliver aminoacyl-tRNAs to the ribosome and promote ribosomal translocation, respectively1. The factor eIF5A (encoded by HYP2 and ANB1 in Saccharomyces cerevisiae), the sole protein in eukaryotes and archaea to contain the unusual amino acid hypusine (N -(4-amino-2-hydroxybutyl)lysine)2, was originally identified based on its ability to stimulate the yield (endpoint) of methionyl-puromycin synthesis—a model assay for first peptide bond synthesis thought to report on certain aspects of translation initiation3, 4. Hypusine is required for eIF5A to associate with ribosomes5, 6 and to stimulate methionyl-puromycin synthesis7. Because eIF5A did not stimulate earlier steps of translation initiation8, and depletion of eIF5A in yeast only modestly impaired protein synthesis9, it was proposed that eIF5A function was limited to stimulating synthesis of the first peptide bond or that eIF5A functioned on only a subset of cellular messenger RNAs. However, the precise cellular role of eIF5A is unknown, and the protein has also been linked to mRNA decay, including the nonsense-mediated mRNA decay pathway10, 11, and to nucleocytoplasmic transport12, 13. Here we use molecular genetic and biochemical studies to show that eIF5A promotes translation elongation. Depletion or inactivation of eIF5A in the yeast S. cerevisiae resulted in the accumulation of polysomes and an increase in ribosomal transit times. Addition of recombinant eIF5A from yeast, but not a derivative lacking hypusine, enhanced the rate of tripeptide synthesis in vitro. Moreover, inactivation of eIF5A mimicked the effects of the eEF2 inhibitor sordarin, indicating that eIF5A might function together with eEF2 to promote ribosomal translocation. Because eIF5A is a structural homologue of the bacterial protein EF-P14, 15, we propose that eIF5A/EF-P is a universally conserved translation elongation factor.

• 以上资料由西亚试剂：http://www.xiyashiji.com/ 提供此产品的详细信息如密度,含量,分子式,分子量等均可在西亚官网查询   
• 相关产品如溴化汞硝酸亚汞氯化亚汞乙酸苯汞氯化钾汞 碘化汞钾硫氰酸汞硫酸亚汞氧化汞氯化汞碘化汞硝酸汞三氯氧磷三氯化磷碘甲烷二碘甲烷三碘甲烷三氟碘甲烷氘代碘甲烷碘乙烷1,2-二碘乙烷甲酸铷碘化铷溴化铷铬酸铷硫酸铷氟化铷硝酸铷氯化铷碳酸铷硫酸镱 碳酸镱氯化镱硝酸镱氧化镱等均有销售.欢迎订购

上一篇：南都电源中标2.6亿元阿里巴巴项目
下一篇：西亚试剂：环戊烯