Title : De novo assembly of the common marmoset transcriptome from NextGen mRNA sequences - Maudhoo_2014_Gigascience_3_14 |
Author(s) : Maudhoo MD , Ren D , Gradnigo JS , Gibbs RM , Lubker AC , Moriyama EN , French JA , Norgren RB, Jr. |
Ref : Gigascience , 3 :14 , 2014 |
Abstract :
BACKGROUND: Nonhuman primates are important for both biomedical studies and understanding human evolution. Although research in these areas has mostly focused on Old World primates, such as the rhesus macaque, the common marmoset (Callithrix jacchus), a New World primate, offers important advantages in comparison to other primates, such as an accelerated lifespan. To conduct Next Generation expression studies or to study primate evolution, a high quality annotation of the marmoset genome is required. The availability of marmoset transcriptome data from five tissues, including both raw sequences and assembled transcripts, will aid in the annotation of the newly released marmoset assembly. FINDINGS: RNA WAS EXTRACTED FROM FIVE TISSUES: skeletal muscle, bladder and hippocampus from a male common marmoset, and cerebral cortex and cerebellum from a female common marmoset. All five RNA samples were sequenced on the Illumina HiSeq 2000 platform. Sequences were deposited in the NCBI Sequence Read Archive. Transcripts were assembled, annotated and deposited in the NCBI Transcriptome Shotgun Assembly database. |
PubMedSearch : Maudhoo_2014_Gigascience_3_14 |
PubMedID: 25243066 |
Gene_locus related to this paper: calja-u3dtk5 , calja-u3csl8 , calja-u3c8u7 , calja-f7bev5 , calja-a0a2r8mxn2 , calja-f7hxl1 , calja-f7ia46 , calja-f7i7f3 , calja-u3cmb7 , calja-f6si68 , calja-f7f864 , calja-f7g6e1 , calja-f6r386 , calja-u3dfd0 , calja-f7ff96 , calja-u3fub9 , calja-u3eyh0 , calja-a0a2r8m630 , calja-u3dyq8 , calja-f7h424 , calja-f6rve8 |
Maudhoo MD, Ren D, Gradnigo JS, Gibbs RM, Lubker AC, Moriyama EN, French JA, Norgren RB, Jr. (2014)
De novo assembly of the common marmoset transcriptome from NextGen mRNA sequences
Gigascience
3 :14
Maudhoo MD, Ren D, Gradnigo JS, Gibbs RM, Lubker AC, Moriyama EN, French JA, Norgren RB, Jr. (2014)
Gigascience
3 :14