Mechanisms and Consequences of Alternative Polyadenylation

被引:557
作者
Di Giammartino, Dafne Campigli [1 ]
Nishida, Kensei [1 ]
Manley, James L. [1 ]
机构
[1] Columbia Univ, Dept Biol Sci, New York, NY 10027 USA
来源
MOLECULAR CELL | 2011年 / 43卷 / 06期
关键词
PRE-MESSENGER-RNA; 3' UNTRANSLATED REGIONS; D1 SPLICE VARIANTS; POLYMERASE-II; CYCLIN D1; MOLECULAR-MECHANISMS; POLY(A) POLYMERASE; PROCESSING FACTORS; 3'-END FORMATION; PROTEIN FACTORS;
D O I
10.1016/j.molcel.2011.08.017
中图分类号
Q5 [生物化学]; Q7 [分子生物学];
学科分类号
071010 ; 081704 ;
摘要
Alternative polyadenylation (APA) is emerging as a widespread mechanism used to control gene expression. Like alternative splicing, usage of alternative poly(A) sites allows a single gene to encode multiple mRNA transcripts. In some cases, this changes the mRNA coding potential; in other cases, the code remains unchanged but the 3' UTR length is altered, influencing the fate of mRNAs in several ways, for example, by altering the availability of RNA binding protein sites and microRNA binding sites. The mechanisms governing both global and gene-specific APA are only starting to be deciphered. Here we review what is known about these mechanisms and the functional consequences of alternative polyadenylation.
引用
收藏
页码:853 / 866
页数:14
相关论文
共 138 条
  • [1] SYNTHESIS OF SECRETED AND MEMBRANE-BOUND IMMUNOGLOBULIN-MU HEAVY-CHAINS IS DIRECTED BY MESSENGER-RNAS THAT DIFFER AT THEIR 3' ENDS
    ALT, FW
    BOTHWELL, ALM
    KNAPP, M
    SIDEN, E
    MATHER, E
    KOSHLAND, M
    BALTIMORE, D
    [J]. CELL, 1980, 20 (02) : 293 - 301
  • [2] Distinct role of long 3′ UTR BDNF mRNA in spine morphology and synaptic plasticity in hippocampal neurons
    An, Juan Ji
    Gharami, Kusumika
    Liao, Guey-Ying
    Woo, Newton H.
    Lau, Anthony G.
    Vanevski, Filip
    Torre, Enrique R.
    Jones, Kevin R.
    Feng, Yue
    Lu, Bai
    Xu, Baoji
    [J]. CELL, 2008, 134 (01) : 175 - 187
  • [3] To localize or not to localize: mRNA fate is in 3′UTR ends
    Andreassi, Catia
    Riccio, Antonella
    [J]. TRENDS IN CELL BIOLOGY, 2009, 19 (09) : 465 - 474
  • [4] Conservation of alternative polyadenylation patterns in mammalian genes
    Ara, Takeshi
    Lopez, Fabrice
    Ritchie, William
    Benech, Philippe
    Gautheret, Daniel
    [J]. BMC GENOMICS, 2006, 7 (1)
  • [5] Last but not least: Regulated poly(A) tail formation
    Barabino, SML
    Keller, W
    [J]. CELL, 1999, 99 (01) : 9 - 11
  • [6] AU-rich elements and associated factors: are there unifying principles?
    Barreau, C
    Paillard, L
    Osborne, HB
    [J]. NUCLEIC ACIDS RESEARCH, 2005, 33 (22) : 7138 - 7150
  • [7] High-resolution profiling of histone methylations in the human genome
    Barski, Artern
    Cuddapah, Suresh
    Cui, Kairong
    Roh, Tae-Young
    Schones, Dustin E.
    Wang, Zhibin
    Wei, Gang
    Chepelev, Iouri
    Zhao, Keji
    [J]. CELL, 2007, 129 (04) : 823 - 837
  • [8] Differential Interactions of the Autonomous Pathway RRM Proteins and Chromatin Regulators in the Silencing of Arabidopsis Targets
    Baurle, Isabel
    Dean, Caroline
    [J]. PLOS ONE, 2008, 3 (07):
  • [9] Patterns of variant polyadenylation signal usage in human genes
    Beaudoing, E
    Freier, S
    Wyatt, JR
    Claverie, JM
    Gautheret, D
    [J]. GENOME RESEARCH, 2000, 10 (07) : 1001 - 1010
  • [10] A rare polyadenylation signal mutation of the FOXP3 gene (AAUAAA→AAUGAA) leads to the IPEX syndrome
    Bennett, CL
    Brunkow, ME
    Ramsdell, F
    O'Briant, KC
    Zhu, Q
    Fuleihan, RL
    Shigeoka, AO
    Ochs, HD
    Chance, PF
    [J]. IMMUNOGENETICS, 2001, 53 (06) : 435 - 439
12345678910