Chromosome-level genome assembly of the functionally extinct northern white rhinoceros (Ceratotherium simum cottoni)

AbstractThe northern white rhinoceros (NWR; Ceratotherium simum cottoni) is functionally extinct, with only two females remaining alive. Efforts to rescue the NWR have inspired the exploration of unconventional conservation methods, including the generation of artificial gametes from induced pluripotent stem cells and somatic cell nuclear transfer. To enable the technologies required for these approaches, we used complementary sequencing and mapping methods to generate a NWR chromosome-level reference genome that meets or exceeds the metrics proposed by the Vertebrate Genome Project. It represents 40 autosomes, an X and a partially-resolved Y chromosome, and the mitochondrial genome. We compared the NWR reference genome to the southern white rhinoceros (SWR) population that has been physically separated from the NWR for tens of thousands of years. Using short-read data from the SWR and optical mapping, we found that the two populations are very similar on both the chromosome level and mitochondrial genome level. The results of this study are encouraging for the efforts underway to rescue the NWR.

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Chromosome-level genome assembly of Acanthopagrus latus using PacBio and Hi-C technologies

10.1101/2021.04.08.438412 ◽

2021 ◽

Author(s):

Dong Gao ◽

Wenyu Fang ◽

Joanna Collins ◽

James Torrance ◽

Ying Yan ◽

...

Keyword(s):

Reference Genome ◽

Sex Reversal ◽

Transcriptome Data ◽

Ideal Model ◽

Model Species ◽

Protein Coding ◽

Genome Level ◽

Acanthopagrus Latus ◽

Sequential Hermaphrodite ◽

Chromosome Level

The yellowfin seabream, Acanthopagrus latus, is widely distributed throughout the Indo-West Pacific. This fish is an ideal model species in which to study the mechanism of sex reversal since it exhibits a specific feature: sequential hermaphrodite. Here, we report a chromosome-scale assembly of the A. latus based on PacBio and Hi-C data. 22,485 protein-coding genes were annotated in whole genome level using transcriptome data. Taken together, this highly accurate, chromosome-level reference genome can provide a valuable resource to elucidate the mechanism of sex reversal for A. latus.

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The chromosome-level reference genome assembly for Dendrobium officinale and its utility of functional genomics research and molecular breeding study

Acta Pharmaceutica Sinica B ◽

10.1016/j.apsb.2021.01.019 ◽

2021 ◽

Author(s):

Zhitao Niu ◽

Fei Zhu ◽

Yajuan Fan ◽

Chao Li ◽

Benhou Zhang ◽

...

Keyword(s):

Functional Genomics ◽

Genome Assembly ◽

Molecular Breeding ◽

Reference Genome ◽

Dendrobium Officinale ◽

Reference Genome Assembly ◽

Genomics Research ◽

Chromosome Level

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Macrosynteny analysis between Lentinula edodes and Lentinula novae-zelandiae reveals signals of domestication in Lentinula edodes

Scientific Reports ◽

10.1038/s41598-021-89146-y ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Christopher Alan Smith

Keyword(s):

Evolutionary History ◽

Lentinula Edodes ◽

Reference Genome ◽

Genomic Change ◽

Diverse Species ◽

The World ◽

Cultivated Mushroom ◽

Genome Assemblies ◽

High Degree ◽

Chromosome Level

AbstractThe basidiomycete fungus Lentinula novae-zelandiae is endemic to New Zealand and is a sister taxon to Lentinula edodes, the second most cultivated mushroom in the world. To explore the biology of this organism, a high-quality chromosome level reference genome of L. novae-zelandiae was produced. Macrosyntenic comparisons between the genome assembly of L. novae-zelandiae, L. edodes and a set of three genome assemblies of diverse species from the Agaricomycota reveal a high degree of macrosyntenic restructuring within L. edodes consistent with signal of domestication. These results show L. edodes has undergone significant genomic change during the course of its evolutionary history, likely a result of its cultivation and domestication over the last 1000 years.

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