Insights into regeneration from the genome, transcriptome and metagenome analysis of<i>Eisenia fetida</i>

Bhambri, Aksheev; Dhaunta, Neeraj; Patel, Smita S.; Hardikar, Mitali; Srikakulam, Nagesh; Shridhar, Shruti; Vellarikkal, Shamsudheen Karuthedath; Suryawanshi, Hemant; Pandey, Rajesh; Jayarajan, Rijith; Verma, Ankit; Kumar, Dilip; Bhatt, Abhishek; Gautam, Pramod; Rai, Mahendra; Ja, Khan; Fromm, Bastian; Kj, Peterson; Scaria,; Sivasubbu, Sridhar; Pillai, Beena

doi:10.1101/180612

Cited by 5 publications

(1 citation statement)

References 98 publications

(78 reference statements)

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“…Emerging genomic methods will be useful to understand this process. By sequencing genomes and transcriptomes, genes involved in regeneration can be identified (Bhambri et al, 2017;Myohara et al, 2006;Nyberg et al, 2012), thereby opening up the possibility of a functional characterization, e.g., by CRISPR or RNAi methods (Boettcher & McManus, 2015). Different studies of annelid regeneration identified the expression of genes such as engrailed, wingless (Wnt), orthodenticle homologs, markers of germline cells (e.g.…”

Section: Reports Of Bifurcated Patterns In Regeneration Are Known Frommentioning

confidence: 99%

Regeneration mechanisms in Syllidae (Annelida)

2018

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Syllidae is one of the most species‐rich groups within Annelida, with a wide variety of reproductive modes and different regenerative processes. Syllids have striking ability to regenerate their body anteriorly and posteriorly, which in many species is redeployed during sexual (schizogamy) and asexual (fission) reproduction. This review summarizes the available data on regeneration in syllids, covering descriptions of regenerative mechanisms in different species as well as regeneration in relation to reproductive modes. Our survey shows that posterior regeneration is widely distributed in syllids, whereas anterior regeneration is limited in most of the species, excepting those reproducing by fission. The latter reproductive mode is well known for a few species belonging to Autolytinae, Eusyllinae, and Syllinae. Patterns of fission areas have been studied in these animals. Deviations of the regular regeneration pattern or aberrant forms such as bifurcated animals or individuals with multiple heads have been reported for several species. Some of these aberrations show a deviation of the bilateral symmetry and antero‐posterior axis, which, interestingly, can also be observed in the regular branching body pattern of some species of syllids.

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Section: Reports Of Bifurcated Patterns In Regeneration Are Known Frommentioning

confidence: 99%

Regeneration mechanisms in Syllidae (Annelida)

2018

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Profiling microRNAs of earthworm, Perionyx excavatus and deciphering the expression of distinct novel miRNAs regulating epimorphosis regeneration

Subramaniam,

Selvan Christyraj,

Selvan Christyraj

et al. 2024

Gene

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Exploring The Genome of The Oribatid Mite,Oppia Nitens– Environmental Stress Response and Toxicity Adaptation

Adedokun,

Fajana,

Jegede

et al. 2024

Preprint

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Oribatid mites are one of the most abundant groups of microarthropods in soil. Oppia nitens, belonging to the family Oppiidae, one of the largest and most diverse families of oribatid mites, has been developed as a standardized model test organism for assessing soil contamination. However, the limited availability of genomic information for this species hinders our understanding of its physiological adaptation and sensitivity to chemical and environmental stressors in soil. Hence, we present the annotated O. nitens draft genome assembled using both Oxford Nanopore Technologies and Illumina sequencing platforms as a basis to identify potential genes that can be linked to adaptation to chemical and environmental stressors. The sequences were assembled into 65 scaffolds spanning 125.4Mb with a 24.5% GC content and an N50 length of 4.41Mb. Genome quality and completeness were checked using arthropod Benchmarking Universal Single-Copy Orthologs (BUSCO) analysis, which identified 93.5 % complete single-copy orthologs, 3.4% complete but duplicated orthologs, 0.5% fragmented, and 2.6% missing orthologs (n=2934). The NCBI Eukaryotic Genome Annotation Pipeline annotated 15,291 genes, 16,969 mRNAs, and 14,938 proteins. Here, we describe the O. nitens complete draft genome and discuss its utility as a genetic basis for further investigations and understanding of the molecular mechanisms and physiological functions in adaptations to environmental change, especially tolerance to metal stress.

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Insights into regeneration from the genome, transcriptome and metagenome analysis ofEisenia fetida

Cited by 5 publications

References 98 publications

Regeneration mechanisms in Syllidae (Annelida)

Regeneration mechanisms in Syllidae (Annelida)

Profiling microRNAs of earthworm, Perionyx excavatus and deciphering the expression of distinct novel miRNAs regulating epimorphosis regeneration

Exploring The Genome of The Oribatid Mite,Oppia Nitens– Environmental Stress Response and Toxicity Adaptation

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