Genome assembly of the rare and endangered Grantham’s camellia, Camellia granthamiana

Hong Kong Biodiversity Genomics Consortium, 17 authors, including; Lai Leo Chan; Siu Gin Cheung

doi:10.46471/gigabyte.124

Genome assembly of the rare and endangered Grantham’s camellia, Camellia granthamiana

Hong Kong Biodiversity Genomics Consortium, 17 authors, including, Lai Leo Chan, Siu Gin Cheung

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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Abstract

Grantham’s camellia (Camellia granthamiana Sealy) is a rare and endangered tea species discovered in Hong Kong in 1955 and endemic to southern China. Despite its high conservation value, the genomic resources of C. granthamiana are limited. Here, we present a chromosomescale draft genome of the tetraploid C. granthamiana (2n = 4x = 60), combining PacBio long-read sequencing and Omni-C data. The assembled genome size is ∼2.4 Gb, with most sequences anchored to 15 pseudochromosomes resembling a monoploid genome. The genome has high contiguity, with a scaffold N50 of 139.7 Mb, and high completeness (97.8% BUSCO score). Our gene model prediction resulted in 68,032 protein-coding genes (BUSCO score of 90.9%). We annotated 1.65 Gb of repeat content (68.48% of the genome). Our Grantham’s camellia genome assembly is a valuable resource for investigating Grantham’s camellia’s biology, ecology, and phylogenomic relationships with other Camellia species, and provides a foundation for further conservation measures.

Original language	English
Journal	GigaByte
Volume	2024
Online published	20 May 2024
DOIs	https://doi.org/10.46471/gigabyte.124
Publication status	Published - 2024

Funding

This work was funded and supported by the Hong Kong Research Grant Council Collaborative Research Fund (C4015-20EF), CUHK Strategic Seed Funding for Collaborative Research Scheme (3133356), and CUHK Group Research Scheme (3110154).

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This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/

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This output contributes to the following UN Sustainable Development Goals (SDGs)

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title = "Genome assembly of the rare and endangered Grantham{\textquoteright}s camellia, Camellia granthamiana",

abstract = "Grantham{\textquoteright}s camellia (Camellia granthamiana Sealy) is a rare and endangered tea species discovered in Hong Kong in 1955 and endemic to southern China. Despite its high conservation value, the genomic resources of C. granthamiana are limited. Here, we present a chromosomescale draft genome of the tetraploid C. granthamiana (2n = 4x = 60), combining PacBio long-read sequencing and Omni-C data. The assembled genome size is ∼2.4 Gb, with most sequences anchored to 15 pseudochromosomes resembling a monoploid genome. The genome has high contiguity, with a scaffold N50 of 139.7 Mb, and high completeness (97.8% BUSCO score). Our gene model prediction resulted in 68,032 protein-coding genes (BUSCO score of 90.9%). We annotated 1.65 Gb of repeat content (68.48% of the genome). Our Grantham{\textquoteright}s camellia genome assembly is a valuable resource for investigating Grantham{\textquoteright}s camellia{\textquoteright}s biology, ecology, and phylogenomic relationships with other Camellia species, and provides a foundation for further conservation measures.",

author = "{Hong Kong Biodiversity Genomics Consortium, 17 authors, including} and Hui, {Jerome H.L.} and Chan, {Ting Fung} and Chan, {Lai Leo} and Cheung, {Siu Gin} and Cheang, {Chi Chiu} and Fang, {James Kar-Hei} and Gaitan-Espitia,, {Juan Diego} and Lau, {Stanley Chun Kwan} and Sung, {Yik Hei} and Wong, {Chris Kong Chu} and Yip, {Kevin Yuk-Lap} and Yingying Wei and Law, {Sean Tsz Sum} and So, {Wai Lok} and Wenyan Nong and Lau, {David Tai Wai} and Yip, {Ho Yin}",

year = "2024",

doi = "10.46471/gigabyte.124",

language = "English",

volume = "2024",

journal = "GigaByte",

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TY - JOUR

T1 - Genome assembly of the rare and endangered Grantham’s camellia, Camellia granthamiana

AU - Hong Kong Biodiversity Genomics Consortium, 17 authors, including

AU - Hui, Jerome H.L.

AU - Chan, Ting Fung

AU - Chan, Lai Leo

AU - Cheung, Siu Gin

AU - Cheang, Chi Chiu

AU - Fang, James Kar-Hei

AU - Gaitan-Espitia,, Juan Diego

AU - Lau, Stanley Chun Kwan

AU - Sung, Yik Hei

AU - Wong, Chris Kong Chu

AU - Yip, Kevin Yuk-Lap

AU - Wei, Yingying

AU - Law, Sean Tsz Sum

AU - So, Wai Lok

AU - Nong, Wenyan

AU - Lau, David Tai Wai

AU - Yip, Ho Yin

PY - 2024

Y1 - 2024

N2 - Grantham’s camellia (Camellia granthamiana Sealy) is a rare and endangered tea species discovered in Hong Kong in 1955 and endemic to southern China. Despite its high conservation value, the genomic resources of C. granthamiana are limited. Here, we present a chromosomescale draft genome of the tetraploid C. granthamiana (2n = 4x = 60), combining PacBio long-read sequencing and Omni-C data. The assembled genome size is ∼2.4 Gb, with most sequences anchored to 15 pseudochromosomes resembling a monoploid genome. The genome has high contiguity, with a scaffold N50 of 139.7 Mb, and high completeness (97.8% BUSCO score). Our gene model prediction resulted in 68,032 protein-coding genes (BUSCO score of 90.9%). We annotated 1.65 Gb of repeat content (68.48% of the genome). Our Grantham’s camellia genome assembly is a valuable resource for investigating Grantham’s camellia’s biology, ecology, and phylogenomic relationships with other Camellia species, and provides a foundation for further conservation measures.

AB - Grantham’s camellia (Camellia granthamiana Sealy) is a rare and endangered tea species discovered in Hong Kong in 1955 and endemic to southern China. Despite its high conservation value, the genomic resources of C. granthamiana are limited. Here, we present a chromosomescale draft genome of the tetraploid C. granthamiana (2n = 4x = 60), combining PacBio long-read sequencing and Omni-C data. The assembled genome size is ∼2.4 Gb, with most sequences anchored to 15 pseudochromosomes resembling a monoploid genome. The genome has high contiguity, with a scaffold N50 of 139.7 Mb, and high completeness (97.8% BUSCO score). Our gene model prediction resulted in 68,032 protein-coding genes (BUSCO score of 90.9%). We annotated 1.65 Gb of repeat content (68.48% of the genome). Our Grantham’s camellia genome assembly is a valuable resource for investigating Grantham’s camellia’s biology, ecology, and phylogenomic relationships with other Camellia species, and provides a foundation for further conservation measures.

U2 - 10.46471/gigabyte.124

DO - 10.46471/gigabyte.124

M3 - RGC 21 - Publication in refereed journal

C2 - 38808228

SN - 2709-4715

VL - 2024

JO - GigaByte

JF - GigaByte

ER -

Genome assembly of the rare and endangered Grantham’s camellia, Camellia granthamiana

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