中文
Earlier issues
Announcement
More
Progress in Chemistry 2010, Vol. 22 Issue (08): 1509-1517   Next Articles

• Invited Article •

MicroRNA Detection

Cheng Yongqiang  Li Zhengping**   Wang Yucong   Fan Yongshan   

  1. (Key Laboratory of Medicine Chemistry and Molecular Diagnosis Ministry of Education, College of Chemistry and Environmental Science, Hebei University, Baoding 071002, China)
  • Received: Revised: Online: Published:
  • Contact: Li Zhengping E-mail:lzpbd@hbu.edu.cn
PDF ( 7317 ) Cited
Export

EndNote

Ris

BibTeX

MicroRNAs (miRNAs) are a class of small non-coding RNAs (18-23 nucleotides (nt)) that regulate gene expression. MiRNAs exist widely in animals, plants and humans, and play fundamental roles in many biological processes, such as growth, development, differentiation and reproduction, etc. MiRNA is believed to be involved in the regulation of nearly 30% of all human genes and its expression level is closely related to some major diseases of mankind. Thus, quantitive detection and expression analysis of miRNA are significant to the understanding of functional mechanism of miRNAs, the diagnosis and treatment of diseases, and the development of the correlated gene drugs, etc. MiRNA detection is mostly based on the hybridization and amplification techniques of nucleic acids, which includes northern blotting technique, microarray, in situ hybridization, real-time reverse transcription PCR, isothermal rolling circle amplification and conjugated polymer-based miRNA detection. With the discovery of miRNA in different species and the thoroughly functional research of miRNA, the detection methods have been improved continuously and the new techniques, involving amplification, labeled probe and detection, have been developed successively. This paper summarizes the progress of miRNA detection, reviews the advantages and the disadvantages of all kinds of methods and prospects the miRNA detection of trends.

Contents 
1. Introduction 
2. Northern blotting technique 
3. Microarray 
3.1 Isotope labeling detection
3.2 Fluorescence labeling detection 
3.3 Chemiluminescence labeling detection 
3.4 Nanoparticle labeling detection 
3.5 Electrochemistry detection 
4. In situ hybridization 
5. Real-time Reverse Transcription PCR 
6. Isothermal rolling circle amplification 
7. Conjugated polymer-based miRNA detection 
8. Conclusion and prospects

Key words: microRNA detection, hybridization, nucleic acid amplification

CLC Number: 

[1 ] Carrington J C,Ambros V. Science,2003,301: 336—338
[2 ] Hammond S M. Nat. Methods,2006,3: 12—13
[3 ] Lewis B P,Burge C B,Bartel D P. Cell,2005,120: 15—20
[4 ] Calin G A,Croce C M. Nat. Rev. Cancer,2006,6: 857—866
[5 ] Gilad S, Meiri E, Yogev Y, Benjamin S, Lebanony D,
Yerushalmi N,Benjamin H,Kushnir M,Cholakh H,Melamed
N,Bentwich Z,Hod M,Goren Y,Chajut A. PloS ONE,2008,
3(9) : e3148
[6 ] Mitchell P S,Parkin R K,Kroh E M,Fritz B R,Wyman S K,
Pogosova-Agadjanyan E L,Peterson A,Noteboom J,O′Briant K
C,Allen A,Lin D W,Urban N,Drescher C W,Knudsen B S,
Stirewalt D L,Gentleman R,Vessella R L,Nelson P S,Martin
D B,Tewari M. Proc. Natl. Acad. Sci. ,2008,105: 10513—
10518
[7 ] Cissell K A,Shrestha S,Deo S K. Anal. Chem. ,2007,79:
4754—4761
[8 ] Wark A W,Lee H J,Corn R M. Angew. Chem. Int. Ed. ,
2008,47: 644—652
[9 ] Lagos-Quintana M, Rauhut R, Lendeckel W, Tuschl T.
Science,2001,294: 853—858
[10] Calin G A,Dumitru C D,Shimizu M,Bichi R,Zupo S,Noch
E,Aldler H,Rattan S,Keating M,Rai K,Rassenti L,Kipps
T,Negrini M,Bullrich F,Croce C M. Proc. Natl. Acad. Sci. ,
2002,99: 15524—15529
[11] Sempere L F,Dubrovsky E B,Dubrovskaya V A,Berger E M,
Ambros V. Dev. Biol. ,2002,244: 170—179
[12] Lim L P,Lau N C,Weinstein E G,Abdelhakim A,Yekta S,
Rhoades M W,Burge C B,Bartel D P. Genes Dev. ,2003,17:
991—1008
[13] Lau N C,Lim L P,Weinstein E G,Bartel D P. Science,2001,
294: 858—862
[14] Válóczi A,Hornyik C,Varga N,Burgyán J,Kauppinen S,
Havelda Z. Nucleic Acids Res. ,2004,32: e175
[15] Obernosterer G,Leuschner P J F,Alenius M,Martinez J. RNA,
2006,12: 1161—1167
[16] Maroney P A,Chamnongpol S,Souret F,Nilsen T W. RNA,
2007,13: 930—936
[17] Maroney P A,Chamnongpol S,Souret F,Nilsen T W. Nat.
Protocols,2008,3: 279—287
[18] Sugatani T,Hruska K A. J. Biol. Chem. ,2009,284: 4667—
4678
[19] Thomson J M,Parker J,Perou C M,Hammond S M. Nat.Methods,2004,1: 47—53
[20] Lee I,Ajay S S,Chen H,Maruyama A,Wang N,McInnis M
G,Athey B D. Nucleic Acids Res. ,2008,36: e27
[21] Krichevsky A M,King K S,Donahue C P,Khrapko K,Kosik
K. RNA,2003,9: 1274—1281
[22] 骆明勇( Luo M Y) ,田志刚( Tian Z G) ,徐智( Xu Z) ,张亮
( Zhang L) ,王应雄(Wang Y X) ,程京( Cheng J) . 生物化学
与生物物理进展( Progress in Biochemistry and Biophysics) ,
2007,34: 31—41
[23] Nelson P T,Baldwin D A,Scearce L M,Oberholtzer J C,Tobias
J W,Mourelatos Z. Nat. Methods,2004,1: 155—161
[24] Castoldi M,Schmidt S,Benes V,Noerholm M,Kulozik A E,
Hentze M W,Muckenthaler M U. RNA,2006,12: 913—920
[25] Castoldi M,Schmidt S,Benes V,Hentze M W,Muckenthaler M
U. Nat. Protocols,2008,3: 321—329
[26] Cissell K A,Rahimi Y,Shrestha S,Hunt E A,Deo S K. Anal.
Chem. ,2008,80: 2319—2325
[27] Liang R,Li W,Li Y,Tan C,Li J,Jin Y,Ruan K. Nucleic
Acids Res. ,2005,33: e17
[28] 何文蕾(He W L) ,杨文杰(Yang W J) ,李媛媛( Li Y Y) ,徐
顺清( Xu S Q ) . 生物化学与生物物理进展( Progress in
Biochemistry and Biophysics) ,2008,35: 1332—1338
[29] Fang S,Lee H J,Wark A W,Corn R M. J. Am. Chem. Soc. ,
2006,128: 14044—14046
[30] Gao Z,Yang Z. Anal. Chem. ,2006,78: 1470—1477
[31] Fan Y,Chen X,Trigg A D,Tung C,Kong J,Gao Z. J. Am.
Chem. Soc. ,2007,129: 5437—5443
[32] Mishima Y,Abreu-Goodger C,Staton A A,Stahlhut C,Shou C,
Cheng C,Gerstein M,Enright A J,Giraldez A J. Genes Dev. ,
2009,23: 619—632
[33] Wienholds E,Kloosterman W P,Miska E,Alvarez-Saavedra E,
Berezikov E,Bruijn E,Horvitz H R,Kauppinen S,Plasterk R
H A. Science,2005,309: 310—311
[34] Kloosterman W P,Wienholds E,Bruijn E D,Kauppinen S,
Plasterk R H A. Nat. Methods,2006,3: 27—29
[35] Obernosterer G,Leuschner P J F,Alenius M,Martinez J. RNA,
2006,12: 1161—1167
[36] Obernosterer G,Martinez J,Alenius M. Nat. Protocols,2007,
2: 1508—1514
[37] Pena J T G,Sohn-Lee C,Rouhanifard S H. Nat. Methods,
2009,6: 139—141
[38] Schmittgen T D,Jiang J,Liu Q. Nucleic Acids Res. ,2004,
32: e43
[39] Raymond C K, Roberts B S, Garrett-Engele P, Lim L P,
Johnson J M. RNA,2005,11: 1737—1744
[40] Chen C,Ridzon D A,Broomer A J,Zhou Z,Lee D H,Nguyen
J T,Barbisin M,Xu N L,Mahuvakar V R,Andersen M R,Lao
K Q,Livak K J,Guegler K J. Nucleic Acids Res. ,2005,33:
e179
[41] Tang F,Hajkova P,Barton S C,Lao K,Surani M A. Nucleic
Acids Res. ,2006,34: e9
[42] Lee E J, Baek M, Gusev Y, Brackett D J, Nuovo G J,
Schmittgen T D. RNA,2008,14: 35—42
[43] Li J,Yao B,Huang H,Wang Z,Sun C,Fan Y,Chang Q,Li
S,Wang X,Xi J. Anal. Chem. ,2009,81: 5446—5451
[44] Shi R,Chiang V L. BioTechniques,2005,39: 519—524
[45] 张旗( Zhang Q) ,何湘君(He X J) ,潘秀英( Pan X Y) . 北京
大学学报( 医学版) ( Journal of Peking University ( Health
Sciences) ) ,2007,39: 87—91
[46] 张旗( Zhang Q) ,何湘君(He X J) ,刘玉京( Liu Y J) ,马丽
萍(Ma L P) ,潘秀英( Pan X Y) . 北京大学学报( 医学版)
( Journal of Peking University ( Health Sciences) ) ,2009,41:
152—157
[47] Fire A,Xu S Q. Proc. Natl. Acad. Sci. ,1995,92: 4641—
4645
[48] Banér J,Nilsson M,Isaksson A,Mende-Hartvig M,Antson D
O,Landegren U. Curr. Opin. Biotech. ,2001,12: 11—15
[49] Jonstrup S P,Koch J,Kjems J. RNA,2006,12: 1747—1752
[50] Cheng Y,Zhang X,Li Z,Jiao X,Wang Y,Zhang Y. Angew.
Chem. Int. Ed. ,2009,48: 3268—3272
[51] Yao B,Li J,Huang H,Sun C,Wang Z,Fan Y,Chang Q,Li
S,Xi J. RNA,2009,15: 1787—1794
[52] Li N,Jablonowski C,Jin H,Zhong W. Anal. Chem. ,2009,
81: 4906—4913
[53] Gaylord B S,Heeger A J,Bazan G C. Proc. Natl. Acad. Sci. ,
2002,99: 10954—10957
[54] Duan X,Li Z,He F,Wang S. J. Am. Chem. Soc. ,2007,
129: 4154—4155
[55] Zhang Y,Li Z,Cheng Y. Chem. Commun. ,2008,6579—
6581
[56] Ho H, Boissinot M, Bergeron M G, Corbeil G, Dore K,
Boudreau D,Leclerc M. Angew. Chem. Int. Ed. ,2002,41:
1548—1551
[57] Zhang Y L,Li Z P,Cheng Y Q,Lv X C. Chem. Commun. ,
2009,3172—3174
[1] Jie Wang, Yaqing Feng, Bao Zhang. MOF-COF Hybrid Frameworks Materials [J]. Progress in Chemistry, 2022, 34(6): 1308-1320.
[2] Yangyang Zhou, Jian Zhong, Xiaojun Bian, Gang Liu, Liang Li, Juan Yan. Application of Signal Amplification Technology in the Area of Food Safety Detection [J]. Progress in Chemistry, 2018, 30(2/3): 206-224.
[3] Zhou Li, Deng Huiping, Zhang Wei. Research on Silver-Containing Visible-Light Photocatalysts [J]. Progress in Chemistry, 2015, 27(4): 349-360.
[4] Qu Xiangmeng, Lin Rongsheng, Chen Hong. Microfluidic Chip Based Microarray Analysis [J]. Progress in Chemistry, 2011, 23(01): 221-230.
[5] Wang Qingxiang,Yuan Xianlong,Jiao Kui**|Xie Jiangkun,Zhang Bo. The Non-labeling Electroactive Acid Deoxyribonucleic Acid Hybridization Indicators [J]. Progress in Chemistry, 2007, 19(06): 1007-1015.
Viewed
Full text


Abstract

MicroRNA Detection