Ellman's reagent prevents dephosphorylation of histones during isolation of mitotic chromosomes.

IF 2.4 4区 生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY
James R Paulson, Erica R Vander Mause, Elizabeth Dillinger, Megan E Luedeman, Bakhtawar Usman
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引用次数: 0

Abstract

Histones H1 and H3 are highly phosphorylated in mitotic HeLa cells but are rapidly dephosphorylated by endogenous protein phosphatases during the isolation of metaphase chromosomes. We show that this dephosphorylation can be prevented by including the sulfhydryl reagent 5,5'-dithiobis-(2-nitrobenzoate) (Ellman's reagent, or DTNB) in the isolation buffer. The minimal amount of DTNB required is approximately stoichiometric with the number of sulfhydryl groups in the lysate. Inhibition of the protein phosphatases can subsequently be reversed by treatment with dithiothreitol or 2-mercaptoethanol. DTNB is compatible with the isolation of either metaphase chromosome clusters or individual metaphase chromosomes. It should be useful in investigations of the structure and biochemistry of chromatin and chromosomes and in the study of possible functions for mitotic histone phosphorylation.

Abstract Image

Ellman试剂防止有丝分裂染色体分离过程中组蛋白的去磷酸化。
组蛋白H1和H3在有丝分裂的HeLa细胞中高度磷酸化,但在中期染色体分离过程中被内源性蛋白磷酸酶迅速去磷酸化。我们发现,在分离缓冲液中加入巯基试剂5,5′-二硫代比斯-(2-硝基苯甲酸酯)(Ellman试剂,或DTNB)可以防止这种去磷酸化。所需DTNB的最小量与裂解物中巯基的数量大致相同。蛋白磷酸酶的抑制作用随后可通过二硫苏糖醇或2-巯基乙醇治疗逆转。DTNB可用于分离中期染色体簇或单个中期染色体。这将有助于研究染色质和染色体的结构和生物化学,以及研究有丝分裂组蛋白磷酸化的可能功能。
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来源期刊
Chromosome Research
Chromosome Research 生物-生化与分子生物学
CiteScore
4.70
自引率
3.80%
发文量
31
审稿时长
1 months
期刊介绍: Chromosome Research publishes manuscripts from work based on all organisms and encourages submissions in the following areas including, but not limited, to: · Chromosomes and their linkage to diseases; · Chromosome organization within the nucleus; · Chromatin biology (transcription, non-coding RNA, etc); · Chromosome structure, function and mechanics; · Chromosome and DNA repair; · Epigenetic chromosomal functions (centromeres, telomeres, replication, imprinting, dosage compensation, sex determination, chromosome remodeling); · Architectural/epigenomic organization of the genome; · Functional annotation of the genome; · Functional and comparative genomics in plants and animals; · Karyology studies that help resolve difficult taxonomic problems or that provide clues to fundamental mechanisms of genome and karyotype evolution in plants and animals; · Mitosis and Meiosis; · Cancer cytogenomics.
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