PT  - JOURNAL ARTICLE
AU  - Aksheev Bhambri
AU  - Neeraj Dhaunta
AU  - Surendra Singh Patel
AU  - Mitali Hardikar
AU  - Nagesh Srikakulam
AU  - Shruti Shridhar
AU  - Shamsudheen Vellarikkal
AU  - Hemant Suryawanshi
AU  - Rajesh Pandey
AU  - Rijith Jayarajan
AU  - Ankit Verma
AU  - Vikram Kumar
AU  - Abhishek Bhatt
AU  - Pradeep Gautam
AU  - Manish Rai
AU  - Jameel Ahmed Khan
AU  - Bastian Fromm
AU  - Kevin J. Peterson
AU  - Vinod Scaria
AU  - Sridhar Sivasubbu
AU  - Beena Pillai
TI  - Insights into regeneration from the genome, transcriptome and metagenome analysis of &lt;em&gt;Eisenia fetida&lt;/em&gt;
AID  - 10.1101/180612
DP  - 2017 Jan 01
TA  - bioRxiv
PG  - 180612
4099  - http://biorxiv.org/content/early/2017/08/25/180612.short
4100  - http://biorxiv.org/content/early/2017/08/25/180612.full
AB  - Earthworms show a wide spectrum of regenerative potential with certain species like Eisenia fetida capable of regenerating more than two-thirds of their body while other closely related species, such as Paranais litoralis seem to have lost this ability. Earthworms belong to the phylum annelida, in which the genomes of the marine oligochaete Capitella telata, and the freshwater leech Helobdella robusta have been sequenced and studied. The terrestrial annelids, in spite of their ecological relevance and unique biochemical repertoire, are represented by a single rough genome draft of Eisenia fetida (North American isolate), which suggested that extensive duplications have led to a large number of HOX genes in this annelid. Herein, we report the draft genome sequence of Eisenia fetida (Indian isolate), a terrestrial redworm widely used for vermicomposting assembled using short reads and mate-pair reads. An in-depth analysis of the miRNome of the worm, showed that many miRNA gene families have also undergone extensive duplications. Genes for several important proteins such as sialidases and neurotrophins were identified by RNA sequencing of tissue samples. We also used de novo assembled RNA-Seq data to identify genes that are differentially expressed during regeneration, both in the newly regenerating cells and in the adjacent tissue. Sox4, a master regulator of TGF-beta induced epithelial-mesenchymal transition was induced in the newly regenerated tissue. The regeneration of the ventral nerve cord was also accompanied by the induction of nerve growth factor and neurofilament genes. The metagenome of the worm, characterized using 16S rRNA sequencing, revealed the identity of several bacterial species that reside in the nephridia of the worm. Comparison of the bodywall and cocoon metagenomes showed exclusion of hereditary symbionts in the regenerated tissue. In summary, we present extensive genome, transcriptome and metagenome data to establish the transcriptome and metagenome dynamics during regeneration.