The deep-sea limpet Bathyacmaea lactea is a species in the family Acmaeidae. And it is a common species associated with the dominant mussel beds in cold seeps. They can feed on bacteria and decomposing the periostracum of Bathymodiolus shells, which make deep-sea limpets different from the well-studied symbionts.
Animalia (Kingdom); Mollusca (Phylum); Gastropoda (Class); Patellogastropoda (Subclass); Lottioidea (Superfamily); Pectinodontidae (Family); Bathyacmaea (Genus); Bathyacmaea lactea (Species)
Bathyacmaea lactea S.-Q. Zhang, J.-L. Zhang & S.-P. Zhang, 2016
1. Zhang S, Zhang J, Zhang S. A new species of Bathyacmaea (Gastropoda: Pectinodontidae) from a methane seep area in the South China Sea[J]. Nautilus, 2016, 130(1): 1-4. (Zhang et al., 2016)
Shell whitish, longitudinally elongated. Shell surface with relatively smooth sculpture consisting of dense growth lines and microscopic radial threads. Apertural margin strongly chipped, forming denticle-like structure. Radular formula 0-1-0-1-0. Lateral teeth trifurcated, with straight, stout shaft. All three cusps out¬ wardly bent; innermost and middle cups sickle-shaped and subequal in size, outermost one smallest, with acute tip
Latin lactea, meaning milky white, a reference to die shell color of the new species
A methane seep area at 22°07' N, 119° 18' E, in 1132.5 m depth. South China Sea
| Species | Phylum | Common Name | Ecosystem | Depth | Habitat | NCBI Taxonomy ID |
|---|---|---|---|---|---|---|
| Bathyacmaea lactea | Mollusca | deep-sea limpet Bathyacmaea lactea | Cold seep | 1,388 | Haima cold seeps in the South China Sea | 2049241 |
| Genome Assembly | Genome Size | Assembly level | Released year | WGS accession | Submitter | BioProject | BUSCO completeness (%) | Scaffold/Contig N50 (kb) | GC content (%) | Repeat Rate (%) | Gene Number |
|---|---|---|---|---|---|---|---|---|---|---|---|
| - | 754.3Mb | Contig | 2020 | - | Hong Kong University of Science and Technology | PRJNA588374 | 94.30 | 1570 | 32.67 | 61.4 | 23,574 |
| Title | Journal | Pubmed ID |
|---|---|---|
| De Novo Genome Assembly of Limpet Bathyacmaea lactea (Gastropoda: Pectinodontidae): The First Reference Genome of a Deep-Sea Gastropod Endemic to Cold Seeps | Genome Biol Evol | 32467969 |
| Gene ID | Description |
|---|---|
| MBSQW58_g1 | - |
| MBSQW58_g10 | MONOCARBOXYLATE TRANSPORTER |
| MBSQW58_g100 | GLUCOSE-6-PHOSPHATASE |
| MBSQW58_g1000 | NUCLEAR HORMONE RECEPTOR |
| MBSQW58_g10000 | - |
| MBSQW58_g10001 | PIGGYBAC TRANSPOSABLE ELEMENT-DERIVED PROTEIN 4 |
| MBSQW58_g10002 | EPM2A-INTERACTING PROTEIN 1 |
| MBSQW58_g10003 | PIGGYBAC TRANSPOSABLE ELEMENT-DERIVED PROTEIN 4 |
| MBSQW58_g10004 | - |
| MBSQW58_g10005 | EPM2A-INTERACTING PROTEIN 1 |
| MBSQW58_g10006 | EPM2A-INTERACTING PROTEIN 1 |
| MBSQW58_g10007 | UNCHARACTERIZED |
| MBSQW58_g10008 | - |
| MBSQW58_g10009 | RAS-ASSOCIATING DOMAIN-CONTAINING PROTEIN |
| MBSQW58_g1001 | HISTIDINE-RICH GLYCOPROTEIN |
| MBSQW58_g10010 | - |
| MBSQW58_g10011 | - |
| MBSQW58_g10012 | EUKARYOTIC TRANSLATION INITIATION FACTOR 3 -RELATED |
| MBSQW58_g10013 | UNCHARACTERIZED |
| MBSQW58_g10014 | TUBULIN |
| Annotation ID | Description | Type | Subtype | GeneRatio | Evolution Type | P-value | Q-value |
|---|---|---|---|---|---|---|---|
| GO:0004540 | ribonuclease activity | GO | Molecular Function | - | expanded | - | 2.11E-17 |
| GO:0046872 | metal ion binding | GO | Molecular Function | - | rapid evolution | 3.84E-111 | 4.64E-109 |
| GO:0046872 | metal ion binding | GO | Molecular Function | - | expanded | - | 1.47E-15 |
| GO:0005622 | intracellular | GO | Cellular Component | - | expanded | - | 3.08E-15 |
| GO:0043167 | ion binding | GO | Molecular Function | - | rapid evolution | 4.32E-105 | 5.18E-103 |
| GO:0043167 | ion binding | GO | Molecular Function | - | expanded | - | 4.36E-15 |
| GO:0043169 | cation binding | GO | Molecular Function | - | rapid evolution | 4.32E-105 | 5.18E-103 |
| GO:0043169 | cation binding | GO | Molecular Function | - | expanded | - | 4.36E-15 |
| GO:0044238 | primary metabolic process | GO | Biological Process | - | rapid evolution | 1.16E-10 | 7.10E-09 |
| GO:0044238 | primary metabolic process | GO | Biological Process | - | expanded | - | 2.18E-14 |
| GO:0006334 | nucleosome assembly | GO | Biological Process | - | expanded | - | 5.67E-13 |
| GO:0034728 | nucleosome organization | GO | Biological Process | - | expanded | - | 1.05E-12 |
| GO:0065004 | protein-DNA complex assembly | GO | Biological Process | - | expanded | - | 6.23E-12 |
| GO:0071824 | protein-DNA complex subunit organization | GO | Biological Process | - | expanded | - | 6.23E-12 |
| GO:0044237 | cellular metabolic process | GO | Biological Process | - | rapid evolution | 1.21E-46 | 1.19E-44 |
| GO:0044237 | cellular metabolic process | GO | Biological Process | - | expanded | - | 3.09E-09 |
| GO:0003677 | DNA binding | GO | Molecular Function | - | rapid evolution | 1.37E-32 | 1.21E-30 |
| GO:0003677 | DNA binding | GO | Molecular Function | - | expanded | - | 5.01E-09 |
| GO:0036094 | small molecule binding | GO | Molecular Function | - | rapid evolution | 5.56E-33 | 5.01E-31 |
| GO:0036094 | small molecule binding | GO | Molecular Function | - | expanded | - | 7.01E-08 |
| GO:0051234 | establishment of localization | GO | Biological Process | - | expanded | - | 8.29E-08 |
| GO:0006810 | transport | GO | Biological Process | - | expanded | - | 8.84E-08 |
| GO:0044424 | intracellular part | GO | Cellular Component | - | rapid evolution | 1.29E-84 | 1.51E-82 |
| GO:0044424 | intracellular part | GO | Cellular Component | - | expanded | - | 1.00E-07 |
| GO:0016758 | transferase activity, transferring hexosyl groups | GO | Molecular Function | - | expanded | - | 2.60E-07 |
| GO:0000786 | nucleosome | GO | Cellular Component | - | expanded | - | 4.62E-07 |
| GO:0032993 | protein-DNA complex | GO | Cellular Component | - | expanded | - | 4.62E-07 |
| GO:0005575 | cellular_component | GO | Cellular Component | - | expanded | - | 1.14E-06 |
