Large scale changes in the transcriptome of Eisenia fetida during regeneration

Bhambri, Aksheev; Dhaunta, Neeraj; Patel, Surendra Singh; Hardikar, Mitali; Bhatt, Abhishek; Srikakulam, Nagesh; Shridhar, Shruti; Vellarikkal, Shamsudheen Karuthedath; Pandey, Rajesh; Jayarajan, Rijith; Verma, Ankit; Kumar, Vikram; Gautam, Pradeep; Khanna, Yukti; Khan, Jameel Ahmed; Fromm, Bastian; Peterson, Kevin J.; Scaria, Vinod; Sivasubbu, Sridhar; Pillai, Beena

doi:10.1371/journal.pone.0204234

Cited by 34 publications

(33 citation statements)

References 87 publications

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“…Phenotypic and transcriptomic changes during regeneration. Some studies have documented transcriptomic and some phenotypic changes of posterior regeneration in the earthworms 15,19 , but very few researches are focused on the anterior regeneration 13 , particularly for E. andrei. Therefore, in the present study, we focused on the anterior regeneration in the earthworm E. andrei.…”

Section: Resultsmentioning

confidence: 99%

“…The evolution of genome sequence only tells a part of the story of regeneration 15,16 ; integrating the transcriptional regulation of genes will help to investigate the mechanisms underlying regeneration of earthworms 11,15,57 . For example, the changes of gene expression in a series of long time scale post-amputation (i.e., 15d, 20d and 30d) have been investigated in E. fetida regeneration 15 . However, the molecular regulation during early phases of anterior regeneration still remains largely unclear in the earthworm.…”

Section: Discussionmentioning

confidence: 99%

“…In Annelida, only three whole genomes, a marine polychaete (Capitella teleta), a freshwater leech (Helobdella robusta) and Eisenia fetida, have been sequenced [14][15][16] . To date, our knowledge and understanding of regeneration in earthworms has been limited by this lack of high-quality genomes, which have severely hindered our exploration of the genetic mechanisms underlying regeneration in earthworms.…”

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confidence: 99%

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Genome and single-cell RNA-sequencing of the earthworm Eisenia andrei identifies cellular mechanisms underlying regeneration

et al. 2020

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The earthworm is particularly fascinating to biologists because of its strong regenerative capacity. However, many aspects of its regeneration in nature remain elusive. Here we report chromosome-level genome, large-scale transcriptome and single-cell RNA-sequencing data during earthworm (Eisenia andrei) regeneration. We observe expansion of LINE2 transposable elements and gene families functionally related to regeneration (for example, EGFR, epidermal growth factor receptor) particularly for genes exhibiting differential expression during earthworm regeneration. Temporal gene expression trajectories identify transcriptional regulatory factors that are potentially crucial for initiating cell proliferation and differentiation during regeneration. Furthermore, early growth response genes related to regeneration are transcriptionally activated in both the earthworm and planarian. Meanwhile, single-cell RNAsequencing provides insight into the regenerative process at a cellular level and finds that the largest proportion of cells present during regeneration are stem cells.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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confidence: 99%

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Genome and single-cell RNA-sequencing of the earthworm Eisenia andrei identifies cellular mechanisms underlying regeneration

et al. 2020

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“…And the annotation study were conducted by Paul et al (2018), although the quality of the assembled genome sequences was not of a sufficient quality for downstream analyses (N50 = 1.85 Kb). Bhambri et al (2018) sequenced a different strain of E. fetida and conducted genome-wide analyses and transcriptome studies. This study also failed to produce a genome assembly sufficient for accurate gene annotation (N50 = 9.31 Kb).…”

Section: Introductionmentioning

confidence: 99%

High-quality genome assembly of Metaphire vulgaris

Jin

Zhou

Guo

et al. 2020

PeerJ

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Earthworms enrich the soil and protect the health of their ecological environment. Previous studies on these invertebrates determined their protein content, hormone secretions, medicinal value, and ecological habits, but their whole genomic sequence remains incomplete. We performed whole genome sequencing of Metaphire vulgaris (Chen, 1930), which belongs to the genus Metaphire of the family Megascolecidae. The genome assembly was 729 Mb, with a N50 contig size of 4.2 Mb. In total, 559 contigs were anchored to 41 chromosomes according to the results of Hi-C (High-throughput Chromosome Conformation Capture) technology, which was confirmed by karyological analysis. A comparison of the genomic sequences and genes indicated that there was a whole-genome duplication in M. vulgaris followed by several chromosome fusion events. Hox genes and lumbrokinase genes were identified as partial clusters surrounding the genome. Our high-quality genome assembly of M. vulgaris will provide valuable information for gene function and evolutionary studies in earthworms.

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“…A Hemerythrin-like protein was found expressed only in the regeneration process, suggesting that it is a "regeneration-specific" gene. A few studies have found genes related to differentiation and regeneration in hydra and salamander [6][7][8][9] that were up-regulated in the sea anemone N. vectensis during the regeneration process.…”

Section: Abstract : Sun Coral Gene-environment Brazilian Coastmentioning

confidence: 99%

The genomes of invasive coral Tubastraea spp. (Dendrophylliidae) as tool for the development of biotechnological solutions

Souza¹,

Amaral²,

Batista³

et al. 2020

Preprint

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Corals have been attracting huge attention due to the impact of climate change and ocean acidification on reef formation and resilience. Nevertheless, some species like Tubastraea coccinea and T. tagusensis have been spreading very fast replacing the native ones which affect the local environment and decrease biodiversity of corals and other organisms associated with them. Despite some focal efforts to understand the biology of these organisms, they remain understudied at the molecular level. This knowledge gap hinders the development of cost-effective strategies for both conservation and management of invasive species. In this circumstance, it is expected that genome sequencing would provide powerful insights that could lead to better strategies for prevention, management, and control of this and other invasive species. Here, we present three genomes of Tubastraea spp. in one of the most comprehensive biological studies of corals, that includes flow cytometry, karyotyping, transcriptomics, genomics, and phylogeny. The genome of T. tagusensis is organized in 23 chromosomes pairs and has 1.1 Gb, the T. coccinea genome is organized in 22 chromosome pairs and has 806 Mb, and the Tubastraea sp. genome is organized in 21 chromosome pairs and has 795 Mb. The hybrid assembly of T. tagusensis using short and long-reads has a N50 of 227,978 bp, 7,996 contigs and high completeness estimated as 91.6% of BUSCO complete genes, of T. coccinea has a N50 of 66,396 bp, 17,214 contigs and 88.1% of completeness , and of Tubastraea sp. has a N50 of 82,672 bp, 12,922 contigs and also 88.1% of completeness . We inferred that almost half of the genome consists of repetitive elements, mostly interspersed repeats. We provide evidence for exclusive Scleractinia and Tubastraea gene content related to adhesion and immunity. The Tubastraea spp. genomes are a fundamental study which promises to provide insights not only about the genetic basis for the extreme invasiveness of this particular coral genus, but to understand the adaptation flaws of some reef corals in the face of anthropic-induced environmental disturbances. We expect the data generated in this study will foster the development of efficient technologies for the management of coral species, whether invasive or threatened.

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Large scale changes in the transcriptome of Eisenia fetida during regeneration

Cited by 34 publications

References 87 publications

Genome and single-cell RNA-sequencing of the earthworm Eisenia andrei identifies cellular mechanisms underlying regeneration

Genome and single-cell RNA-sequencing of the earthworm Eisenia andrei identifies cellular mechanisms underlying regeneration

High-quality genome assembly of Metaphire vulgaris

The genomes of invasive coral Tubastraea spp. (Dendrophylliidae) as tool for the development of biotechnological solutions

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