Deep-sea anemone species Paraphelliactis xishaensis sp. nov. is a newly described species of deep-sea anemone in the genus Paraphelliactis, discovered in the Xisha Trough of the South China Sea at a depth of 3,230 meters. This species is adapted to the extreme conditions of the deep sea, thriving in cold, dark, and high-pressure environments. Its discovery contributes to our understanding of the biodiversity and ecological dynamics of deep-sea ecosystems.
Animalia (Kingdom); Cnidaria (Phylum); Anthozoa (Subphylum); Hexacorallia (Class); Actiniaria (Order); Enthemonae (Suborder); Metridioidea (Superfamily); Hormathiidae (Family); Paraphelliactis (Genus); Paraphelliactis xishaensis (Species)
Paraphelliactis xishaensis Feng, Liu, Xu, Zhou, Zhu, Liu, Wu, Li, Qiu, He, Wang, Zhang & Wang, 2021
1. (Feng et al., 2021)
Morphologically, this deep-sea anemone has an orange-brown body and markedly expanded oral disc. The column is divisible into scapus and scapulus and regularly covered with dense tubercles. No cinclides. Internal column bears acontia. These lines of characteristics suggest this anemone should belong to the genus Paraphelliactis (Actiniaria, Hormathiidae), which is also established by molecular evidence
Xisha Trough (113.737502° E, 18.266465° N)
| Species | Phylum | Common Name | Ecosystem | Depth | Habitat | NCBI Taxonomy ID |
|---|---|---|---|---|---|---|
| Paraphelliactis xishaensis sp. nov. | Cnidaria | Paraphelliactis xishaensis | Deep sea | 3,230 | Xisha Trough (113.737502° E, 18.266465° N) | 2836328 |
| Genome Assembly | Genome Size | Assembly level | Released year | WGS accession | Submitter | BioProject | BUSCO completeness (%) | Scaffold/Contig N50 (kb) | GC content (%) | Repeat Rate (%) | Gene Number |
|---|---|---|---|---|---|---|---|---|---|---|---|
| - | 542.9Mb | Contig | 2021 | - | Northwestern Polytechnical University | PRJNA588374 | 89.50 | 761.1 | 37.5 | 56.6 | 32,549 |
| Title | Journal | Pubmed ID |
|---|---|---|
| The genome of a new anemone species (Actiniaria: Hormathiidae) provides insights into deep-sea adaptation | Deep Sea Research Part I | Link |
| Gene ID | Description |
|---|---|
| HK74SY85_g15489 | REVERSE TRANSCRIPTASE DOMAIN-CONTAINING PROTEIN-RELATED |
| HK74SY85_g1549 | MEDIATOR OF RNA POLYMERASE II TRANSCRIPTION SUBUNIT 17 |
| HK74SY85_g15490 | MATRIX METALLOPROTEINASE |
| HK74SY85_g15491 | G-PROTEIN COUPLED RECEPTOR |
| HK74SY85_g15492 | COLLAGEN ALPHA |
| HK74SY85_g15493 | - |
| HK74SY85_g15494 | ATP-BINDING CASSETTE SUB-FAMILY C |
| HK74SY85_g15495 | - |
| HK74SY85_g15496 | - |
| HK74SY85_g15497 | LEUCOKININ RECEPTOR-RELATED |
| HK74SY85_g15498 | RECEPTOR-BINDING CANCER ANTIGEN EXPRESSED ON SISO CELLS CANCER ASSOCIATED SURFACE ANTIGEN RCAS1 ESTROGEN RECEPTOR-BINDING FRAGMENT- ASSOCIATED GENE 9 PROTEIN |
| HK74SY85_g15499 | LEUCOKININ RECEPTOR-RELATED |
| HK74SY85_g155 | - |
| HK74SY85_g1550 | - |
| HK74SY85_g15500 | NADPH OXIDASE |
| HK74SY85_g15501 | UNCHARACTERIZED |
| HK74SY85_g15502 | EXONUCLEASE, PHAGE-TYPE/RECB, C-TERMINAL DOMAIN-CONTAINING PROTEIN |
| HK74SY85_g15503 | ATP-BINDING CASSETTE SUB-FAMILY C |
| HK74SY85_g15504 | KRAB DOMAIN C2H2 ZINC FINGER |
| HK74SY85_g15505 | TRANSCRIPTIONAL REPRESSOR PROTEIN YY |
| Annotation ID | Description | Type | Subtype | GeneRatio | Evolution Type | P-value | Q-value |
|---|---|---|---|---|---|---|---|
| GO:0032211 | negative regulation of telomere maintenance via telomerase | GO | Biological Process | - | expanded | - | 3.70E-136 |
| GO:0010521 | telomerase inhibitor activity | GO | Molecular Function | - | expanded | - | 1.05E-120 |
| GO:0051974 | negative regulation of telomerase activity | GO | Biological Process | - | expanded | - | 1.05E-120 |
| GO:0044806 | G-quadruplex DNA unwinding | GO | Biological Process | - | expanded | - | 4.13E-120 |
| GO:0000002 | mitochondrial genome maintenance | GO | Biological Process | - | expanded | - | 8.86E-114 |
| GO:0005657 | replication fork | GO | Cellular Component | - | expanded | - | 9.10E-112 |
| GO:0032508 | DNA duplex unwinding | GO | Biological Process | - | expanded | - | 1.48E-99 |
| GO:0006260 | DNA replication | GO | Biological Process | - | expanded | - | 6.81E-89 |
| GO:0030491 | heteroduplex formation | GO | Biological Process | - | expanded | - | 2.18E-44 |
| GO:0031627 | telomeric loop formation | GO | Biological Process | - | expanded | - | 1.79E-41 |
| GO:0098505 | G-rich strand telomeric DNA binding | GO | Molecular Function | - | expanded | - | 1.79E-41 |
| GO:2000001 | regulation of DNA damage checkpoint | GO | Biological Process | - | expanded | - | 1.79E-41 |
| GO:0000783 | nuclear telomere cap complex | GO | Cellular Component | - | expanded | - | 6.94E-39 |
| GO:0006268 | DNA unwinding involved in DNA replication | GO | Biological Process | - | expanded | - | 6.94E-39 |
| GO:0000722 | telomere maintenance via recombination | GO | Biological Process | - | expanded | - | 1.44E-36 |
| GO:0000794 | condensed nuclear chromosome | GO | Cellular Component | - | expanded | - | 1.44E-36 |
| GO:0005662 | DNA replication factor A complex | GO | Cellular Component | - | expanded | - | 1.44E-36 |
| GO:0051096 | positive regulation of helicase activity | GO | Biological Process | - | expanded | - | 1.44E-36 |
| GO:0000724 | double-strand break repair via homologous recombination | GO | Biological Process | - | expanded | - | 5.66E-35 |
| GO:0003691 | double-stranded telomeric DNA binding | GO | Molecular Function | - | expanded | - | 1.76E-34 |
