About Alvinactis idsseensis sp. Nov.

The vent sea anemoneAlvinactis idsseensis sp. Nov. is a species in the family Actinoscyphiidae. They can flourish in a variety of deep-sea environments. Most sea anemones thriving in sulfide-rich hydrothermal vent peripheral zone obtain nutrients by eating blind shrimp, rather than relying on chemoautotrophic carbon production.

Classification

Animalia Kingdom; Cnidaria (Phylum); Anthozoa (Class); Actiniaria (Order); Actinoscyphiidae (Family); Alvinactis (Genus); Alvinactis idsseensis sp. Nov. (Species)

Original Name

Alvinactis sp. ZX-2022


Basic Information
SpeciesPhylumCommon NameEcosystemDepthHabitatNCBI Taxonomy ID
Alvinactis idsseensis sp. Nov.CnidariaAlvinactis spDeep sea3,279Southwest Indian Ocean “Edmond” hydrothermal vent filed in the CIR (69 59′E, 23 87′S)2978091

Genome Assembly Information
Genome AssemblyGenome SizeAssembly levelReleased yearWGS accessionSubmitterBioProjectBUSCO completeness (%)Scaffold/Contig N50 (kb)GC content (%)Repeat Rate (%)Gene Number
-456.58MbChromosome2023-Institute of Deep-sea Science and Engineering, Chinese Academy of SciencesPRJNA90986492.80 27,561/1,71538.8463.2731,960

References
TitleJournalPubmed ID
Genetic adaptations of sea anemone to hydrothermal environmentScience Advances37862424

Gene Information

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Gene IDDescription
alvinactis_v1_g13021HISTONE H3
alvinactis_v1_g13022HISTONE H4
alvinactis_v1_g13023HISTONE H2A
alvinactis_v1_g13024HISTONE H2B
alvinactis_v1_g13025HISTONE H4
alvinactis_v1_g13026HISTONE H2A
alvinactis_v1_g13027HISTONE H3
alvinactis_v1_g13028HISTONE H4
alvinactis_v1_g13029HISTONE H2A
alvinactis_v1_g1303-
alvinactis_v1_g13030HISTONE H3
alvinactis_v1_g13031HISTONE H4
alvinactis_v1_g13032HISTONE H2A
alvinactis_v1_g13033HISTONE H3
alvinactis_v1_g13034HISTONE H4
alvinactis_v1_g13035HISTONE H2A
alvinactis_v1_g13036HISTONE H3
alvinactis_v1_g13037HISTONE H4
alvinactis_v1_g13038HISTONE H2A
alvinactis_v1_g13039HISTONE H3

Results of comparison between Alvinactis idsseensis sp. Nov. and its nearshore relatives from the paper (Zhou et al., 2023)

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Annotation IDDescriptionTypeSubtypeGeneRatioEvolution TypeP-valueQ-value
GO:0016705oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygenGOMolecular Function-expanded1.55E-292.06E-26
GO:0005506iron ion bindingGOMolecular Function-expanded1.33E-271.77E-24
GO:0020037heme bindingGOMolecular Function-expanded9.81E-201.30E-16
GO:0004252serine-type endopeptidase activityGOMolecular Function-expanded5.15E-196.82E-16
GO:0055085transmembrane transportGOBiological Process-expanded2.66E-163.53E-13
GO:0006508proteolysisGOBiological Process-expanded3.90E-165.18E-13
GO:0000723telomere maintenanceGOBiological Process-expanded3.48E-144.62E-11
GO:0006955immune responseGOBiological Process-expanded1.66E-132.21E-10
GO:0030247polysaccharide bindingGOMolecular Function-expanded1.66E-132.21E-10
GO:0003678DNA helicase activityGOMolecular Function-expanded2.01E-132.67E-10
GO:0006468protein phosphorylationGOBiological Process-expanded7.46E-129.89E-09
GO:0005044scavenger receptor activityGOMolecular Function-expanded1.06E-111.41E-08
GO:0008378galactosyltransferase activityGOMolecular Function-expanded4.15E-115.50E-08
GO:0022857transmembrane transporter activityGOMolecular Function-expanded5.29E-107.02E-07
GO:0016021integral component of membraneGOCellular Component-expanded1.52E-092.02E-06
GO:0004672protein kinase activityGOMolecular Function-expanded2.98E-093.95E-06
GO:0005524ATP bindingGOMolecular Function-expanded7.02E-099.30E-06
GO:0055114oxidation-reduction processGOBiological Process-expanded1.19E-081.57E-05
GO:0016758transferase activity, transferring hexosyl groupsGOMolecular Function-expanded2.32E-083.08E-05
GO:0005515protein bindingGOMolecular Function-expanded3.52E-070.000466369
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