Wang_2011_Genome.Res_21_1462

Reference

Title : Deep small RNA sequencing from the nematode Ascaris reveals conservation, functional diversification, and novel developmental profiles - Wang_2011_Genome.Res_21_1462
Author(s) : Wang J , Czech B , Crunk A , Wallace A , Mitreva M , Hannon GJ , Davis RE
Ref : Genome Res , 21 :1462 , 2011
Abstract :

Eukaryotic cells express several classes of small RNAs that regulate gene expression and ensure genome maintenance. Endogenous siRNAs (endo-siRNAs) and Piwi-interacting RNAs (piRNAs) mainly control gene and transposon expression in the germline, while microRNAs (miRNAs) generally function in post-transcriptional gene silencing in both somatic and germline cells. To provide an evolutionary and developmental perspective on small RNA pathways in nematodes, we identified and characterized known and novel small RNA classes through gametogenesis and embryo development in the parasitic nematode Ascaris suum and compared them with known small RNAs of Caenorhabditis elegans. piRNAs, Piwi-clade Argonautes, and other proteins associated with the piRNA pathway have been lost in Ascaris. miRNAs are synthesized immediately after fertilization in utero, before pronuclear fusion, and before the first cleavage of the zygote. This is the earliest expression of small RNAs ever described at a developmental stage long thought to be transcriptionally quiescent. A comparison of the two classes of Ascaris endo-siRNAs, 22G-RNAs and 26G-RNAs, to those in C. elegans, suggests great diversification and plasticity in the use of small RNA pathways during spermatogenesis in different nematodes. Our data reveal conserved characteristics of nematode small RNAs as well as features unique to Ascaris that illustrate significant flexibility in the use of small RNAs pathways, some of which are likely an adaptation to Ascaris' life cycle and parasitism. The transcriptome assembly has been submitted to NCBI Transcriptome Shotgun Assembly Sequence Database(http:\/\/www.ncbi.nlm.nih.gov/genbank/TSA.html) under accession numbers JI163767-JI182837 and JI210738-JI257410.

PubMedSearch : Wang_2011_Genome.Res_21_1462
PubMedID: 21685128
Gene_locus related to this paper: ascsu-f1kpy0.2 , ascsu-f1kpy0.3 , ascsu-f1kpy0.4 , ascsu-f1kr69 , ascsu-f1ktc3 , ascsu-f1ktc5 , ascsu-f1ktw1.1 , ascsu-f1ktw1.2 , ascsu-f1ktx4 , ascsu-f1kwb2 , ascsu-f1kwb5 , ascsu-f1kwf0 , ascsu-f1kxs8 , ascsu-f1ky57 , ascsu-f1kz22 , ascsu-f1kze8 , ascsu-f1kzv8 , ascsu-f1kzx8 , ascsu-f1l0a5 , ascsu-f1l0j3 , ascsu-f1l0s4 , ascsu-f1l0s5 , ascsu-f1l1k4 , ascsu-f1l1m9 , ascsu-f1l1p8 , ascsu-f1l2e5 , ascsu-f1l2m0 , ascsu-f1l3k2 , ascsu-f1l5n5 , ascsu-f1l6s4 , ascsu-f1l7s2 , ascsu-f1l108 , ascsu-f1l145 , ascsu-f1la00 , ascsu-f1lav9 , ascsu-u1mei8 , ascsu-u1ns34 , ascsu-u1nb30 , ascsu-f1kzg5 , ascsu-f1l726 , ascsu-u1ntf1 , ascsu-u1nx87 , ascsu-f1l5f0 , ascsu-f1l6n2

Related information

Gene_locus ascsu-f1kpy0.2    ascsu-f1kpy0.3    ascsu-f1kpy0.4    ascsu-f1kr69    ascsu-f1ktc3    ascsu-f1ktc5    ascsu-f1ktw1.1    ascsu-f1ktw1.2    ascsu-f1ktx4    ascsu-f1kwb2    ascsu-f1kwb5    ascsu-f1kwf0    ascsu-f1kxs8    ascsu-f1ky57    ascsu-f1kz22    ascsu-f1kze8    ascsu-f1kzv8    ascsu-f1kzx8    ascsu-f1l0a5    ascsu-f1l0j3    ascsu-f1l0s4    ascsu-f1l0s5    ascsu-f1l1k4    ascsu-f1l1m9    ascsu-f1l1p8    ascsu-f1l2e5    ascsu-f1l2m0    ascsu-f1l3k2    ascsu-f1l5n5    ascsu-f1l6s4    ascsu-f1l7s2    ascsu-f1l108    ascsu-f1l145    ascsu-f1la00    ascsu-f1lav9    ascsu-u1mei8    ascsu-u1ns34    ascsu-u1nb30    ascsu-f1kzg5    ascsu-f1l726    ascsu-u1ntf1    ascsu-u1nx87    ascsu-f1l5f0    ascsu-f1l6n2
Gene_locus_frgt ascsu-f1kpy0.1    ascsu-f1l7y3    ascsu-f1lcb3    ascsu-u1m6v0    ascsu-u1m6e3    ascsu-u1mmz7    ascsu-u1mjm7

Citations formats

Wang J, Czech B, Crunk A, Wallace A, Mitreva M, Hannon GJ, Davis RE (2011)
Deep small RNA sequencing from the nematode Ascaris reveals conservation, functional diversification, and novel developmental profiles
Genome Res 21 :1462

Wang J, Czech B, Crunk A, Wallace A, Mitreva M, Hannon GJ, Davis RE (2011)
Genome Res 21 :1462