Desai Malhar, Di Rong, Fan Huizhou
Department of Pharmacology, Robert Wood Johnson Medical School, Rutgers University; Graduate Program in Physiology and Integrative Biology, School of Graduate Studies, Rutgers University.
Department of Plant Biology, School of Environmental and Biological, Rutgers University.
J Vis Exp. 2019 Jul 26(149). doi: 10.3791/59687.
A transcription factor (TF) is a protein that regulates gene expression by interacting with the RNA polymerase, another TF, and/or template DNA. GrgA is a novel transcription activator found specifically in the obligate intracellular bacterial pathogen Chlamydia. Protein pulldown assays using affinity beads have revealed that GrgA binds two σ factors, namely σ and σ, which recognize different sets of promoters for genes whose products are differentially required at developmental stages. We have used BLI to confirm and further characterize the interactions. BLI demonstrates several advantages over pulldown: 1) It reveals real-time association and dissociation between binding partners, 2) It generates quantitative kinetic parameters, and 3) It can detect bindings that pulldown assays often fail to detect. These characteristics have enabled us to deduce the physiological roles of GrgA in gene expression regulation in Chlamydia, and possible detailed interaction mechanisms. We envision that this relatively affordable technology can be extremely useful for studying transcription and other biological processes.
转录因子(TF)是一种通过与RNA聚合酶、其他转录因子和/或模板DNA相互作用来调节基因表达的蛋白质。GrgA是一种新发现的转录激活因子,专门存在于专性胞内细菌病原体衣原体中。使用亲和珠进行的蛋白质下拉实验表明,GrgA与两种σ因子结合,即σ和σ,它们识别不同的启动子集合,这些启动子对应于在发育阶段差异需要其产物的基因。我们使用生物层干涉术(BLI)来确认并进一步表征这些相互作用。与下拉实验相比,BLI具有几个优点:1)它揭示了结合伙伴之间的实时结合和解离;2)它生成定量动力学参数;3)它可以检测下拉实验经常无法检测到的结合。这些特性使我们能够推断GrgA在衣原体基因表达调控中的生理作用以及可能的详细相互作用机制。我们设想,这种相对经济实惠的技术对于研究转录和其他生物学过程可能极其有用。
