Profiling Membrane Proteome of Macrophages by One-dimensional PAGE and Liquid Chromatography –Tandem Mass Spectrometry

China Biotechnology

2007, Vol. 27

Issue (4): 77-82 DOI:

Profiling Membrane Proteome of Macrophages by One-dimensional PAGE and Liquid Chromatography –Tandem Mass Spectrometry

Download:

HTML

PDF(1019KB) HTML
Export: BibTeX | EndNote (RIS)

Abstract

Macrophages are involved in many important biological processes and membrane proteins are the key effector molecules for their functions. However, membrane proteins are difficult to analyze by 2-DE based method because of their intrinsic tendency to self-aggregate during the first dimension separation (IEF). To circumvent the obstacle hampering membrane protein analysis, we combined one-dimensional SDS-PAGE with capillary liquid chromatography-tandem mass spectrometry (LC-MS/MS). Using this technique, we identified 458 GO annotated membrane proteins with extremely high confidence, including most known markers of peritoneal macrophages (e.g., CD11b, F4/80, CD14, CD18, CD86, CD44, CD16 and Toll-like receptor). Thirteen other CD antigens (CD243, CD98, CD107a, CD107b, CD36, CD97, CD205, CD206, CD180, CD191, CD300, CD45and CD29), and 18 Ras-related small GTPase were also identified. In addition to those known macrophage membrane proteins, a significant number of novel proteins have also been identified. This research provides a valuable data set of macrophage membrane proteins, thus allowing for more comprehensive study of membrane proteins and a better understanding of the function mechanisms of macrophages in many biological processes.

Key words： Macrophage Membrane proteome Proteomics SDS-PAGE Tandem mass spectrometry

Received: 22 November 2006 Published: 25 April 2007

	Service
	E-mail this article
	Add to my bookshelf
	Add to citation manager
	E-mail Alert
	RSS
	Articles by authors

Cite this article:

. Profiling Membrane Proteome of Macrophages by One-dimensional PAGE and Liquid Chromatography –Tandem Mass Spectrometry. China Biotechnology, 2007, 27(4): 77-82.

URL:

https://manu60.magtech.com.cn/biotech/ OR https://manu60.magtech.com.cn/biotech/Y2007/V27/I4/77

[1]	LIN Lu,HU Li-jun,HUANG Yi-yun,CHEN Lu,HUANG Mao,PENG Qi,HU Qin,ZHOU Lan. S100A6 Promotes Angiogenesis Through Recruiting and Activating Macrophages[J]. China Biotechnology, 2020, 40(5): 7-14.

[2]	Lu CHEN,Mao HUANG,Qi PENG,Jia-li ZHAO,Jia-qing XIE,Lu LIN,Li-jun HU,Yi-yun HUANG,Qin HU,Lan ZHOU. S100A6 Promotes Cell Proliferation of Colorectal Cancer via Upregulating IL-6 Expression of Macrophages[J]. China Biotechnology, 2019, 39(4): 1-7.

[3]	Qing-meng LI,Sheng-tao LI,Ning WANG,Xiao-dong GAO. Expression, Purification and Activity Assay of Yeast α-1,2 Mannosyltransferase Alg11[J]. China Biotechnology, 2018, 38(6): 26-33.

[4]	Yang TAN,Sheng LIU,Feng-ling LUO,Xiao-lian ZHANG. *Analysis of Differential lncRNA Expression Profile in the Macrophages after Mycobacterium tuberculosis* Stimulation**[J]. China Biotechnology, 2018, 38(5): 1-9.

[5]	CHEN Juan, YANG Hui-lin, HUANG Yun-hong, LONG Zhong-er. *Screening of the Protein Related to Antibiotics Biosynthesis in Micromonospora carbonacea* JXNU-1**[J]. China Biotechnology, 2016, 36(7): 55-63.

[6]	LV Shan-shan, HOU Yun-hua, YAN Meng-jie, ZHONG Yao-hua. Recent Progress in Mutagenesis Strategies and High-yielding Mechanism for Enzyme Production in Industrial Fungi[J]. China Biotechnology, 2016, 36(3): 111-119.

[7]	HU Bin-bin, LIN Lian-bing, WEI Yun-lin, JI Xiu-ling, ZHANG Qi. An Efficient Fungal Protein Extraction Method[J]. China Biotechnology, 2013, 33(9): 53-58.

[8]	ZHANG Yuan-yuan, HU Qi-meng, WANG Liang-liang, LI Xin-hong. Resent Advances on Phosphoproteomics Researches of Mammalian Sperm Capacitation[J]. China Biotechnology, 2012, 32(04): 76-82.

[9]	TIAN Xiao-mei, REN Jian-hong, FANG Cong. *Proteomic Analysis of Pichia pastoris* GS115 Cultured in Different Carbon Source Mediums**[J]. China Biotechnology, 2012, 32(01): 21-29.

[10]	MA Pan, LIU Hong-tao, XU Qing-song, BAI Xue-fang, DU Yu-guang. Effects of Chitosan Oligosaccharides Attenuating Menadione-induced Injury in Macrophages[J]. China Biotechnology, 2011, 31(06): 18-21.

[11]	GE Wei-feng, CHU Xiao-he, WANG Yong-hong, ZHANG Si-liang. Optimization of Protease Inhibitor Mixture for Protein Extraction from Cells in Proteomics Study of Streptomyces avermitilis[J]. China Biotechnology, 2010, 30(12): 66-71.

[12]	. Examination DNA vaccine-binding proteins in the immune cells[J]. China Biotechnology, 2010, 30(10): 0-0.

[13]	JIN Liang, CHEN Shang-wu, MA Hui-qin. Advances in Grape Proteomics[J]. China Biotechnology, 2010, 30(10): 100-107.

[14]	. Advances in Grape Proteomics[J]. China Biotechnology, 2010, 30(10): 0-0.

[15]	ZHONG Yi-wei, LI Jin-yao, GENG Shuang, WANG Bin. Examination DNA Vaccine-binding Proteins in the Immune Cells[J]. China Biotechnology, 2010, 30(10): 12-16.

Viewed

Full text

Abstract

Cited

Shared

Discussed