The vestimentiferan Paraescarpia echinospica is widely distributed in the cold seeps and methane seeps of the western Pacific Ocean, and relies on their endosymbiont bacteria as a source of energy and organic carbon. It's gutless and depends entirely on its endosymbiotic sulfide-oxidizing chemoautotrophic bacteria for nutrition. Its mechanisms of host–symbiont cooperation in energy production and nutrient biosynthesis and utilization have recently been documented through a study of its endosymbiont genome and metaproteome.
Animalia (Kingdom); Annelida (Phylum); Polychaeta (Class); Sedentaria (Subclass); Canalipalpata (Infraclass); Sabellida (Order); Siboglinidae (Family); Paraescarpia (Genus); Paraescarpia echinospica (Species)
Paraescarpia echinospica Southward, Schulze & Tunnicliffe, 2002
1. Southward E C, Schulze A, Tunnicliffe V. Vestimentiferans (Pogonophora) in the Pacific and Indian Oceans: a new genus from Lihir Island (Papua New Guinea) and the Java Trench, with the first report of Arcovestia ivanovi from the North Fiji Basin[J]. Journal of natural History, 2002, 36(10): 1179-1197. (Southward et al., 2010)
Edison Seamount, Lihir Island, -3.3178 (3° 19' 4" S) 152.5847 (152° 35' 5" E)
| Species | Phylum | Common Name | Ecosystem | Depth | Habitat | NCBI Taxonomy ID |
|---|---|---|---|---|---|---|
| Paraescarpia echinospica | Annelida | deep-sea tubeworm | Cold seep/Hydrothermal vent | 1100-1600 | Haima cold seep in the South China Sea (16°43.80′N, 110°28.50′E) | 2080241 |
| Genome Assembly | Genome Size | Assembly level | Released year | WGS accession | Submitter | BioProject | BUSCO completeness (%) | Scaffold/Contig N50 (kb) | GC content (%) | Repeat Rate (%) | Gene Number |
|---|---|---|---|---|---|---|---|---|---|---|---|
| HKBU_Pec_v1 | 1.09Gb | Chromosome | 2021 | JAHLWY01 | Hong Kong University of Science and Technology | PRJNA625616 | 96.40 | 67,235/253.6 | 41 | 55 | 22,642 |
| Title | Journal | Pubmed ID |
|---|---|---|
| Genomic Signatures Supporting the Symbiosis and Formation of Chitinous Tube in the Deep-Sea Tubeworm Paraescarpia echinospica | Molecular Biology and Evolution | 34255082 |
| Gene ID | Description |
|---|---|
| PE_Scaf9905_0.6 | - |
| PE_Scaf9907_0.3 | BLUE CHEESE |
| PE_Scaf9907_1.3 | RNA-BINDING PROTEIN RELATED |
| PE_Scaf9907_2.3 | DNA-DIRECTED RNA POLYMERASE |
| PE_Scaf9907_3.0 | ATP SYNTHASE SUBUNIT D, MITOCHONDRIAL |
| PE_Scaf9907_4.11 | ZINC FINGER PROTEIN |
| PE_Scaf9907_4.12 | TATA ELEMENT MODULATORY FACTOR TMF1 |
| PE_Scaf9907_4.14 | RAD50-INTERACTING PROTEIN 1 RINT-1 |
| PE_Scaf9907_4.2 | - |
| PE_Scaf9907_4.37 | E3 UBIQUITIN-PROTEIN LIGASE RING1 / RING 2 FAMILY MEMBER |
| PE_Scaf9907_4.38 | UBIQUITIN-CONJUGATING ENZYME E2 |
| PE_Scaf9909_0.1 | DNA2/NAM7 HELICASE FAMILY |
| PE_Scaf9909_0.2 | CHARGED MULTIVESICULAR BODY PROTEIN |
| PE_Scaf9912_0.1 | RAB6A-GEF COMPLEX PARTNER PROTEIN 1 |
| PE_Scaf9912_1.2 | UNCHARACTERIZED |
| PE_Scaf9912_2.5 | UV EXCISION REPAIR PROTEIN RAD23 |
| PE_Scaf9912_2.7 | - |
| PE_Scaf9915_0.3 | CALCIUM-INDEPENDENT PHOSPHOLIPASE A2 IPLA2 -RELATED |
| PE_Scaf9916_2.3 | HISTONE PARYLATION FACTOR 1 |
| PE_Scaf9916_2.4 | TRANSIENT RECEPTOR POTENTIAL CHANNEL |
| Annotation ID | Description | Type | Subtype | GeneRatio | Evolution Type | P-value | Q-value |
|---|---|---|---|---|---|---|---|
| GO:0006508 | proteolysis | GO | Biological process | 12 | expanded | 2.31E-07 | 2.41E-05 |
| GO:0005576 | extracellular region | GO | Cellular component | 10 | expanded | 3.02E-07 | 2.41E-05 |
| GO:0045095 | keratin filament | GO | Cellular component | 4 | expanded | 5.74E-06 | 0.000306097 |
| GO:0006352 | DNA-templated transcription, initiation | GO | Biological process | 4 | expanded | 2.55E-05 | 0.00102057 |
| GO:0043086 | negative regulation of catalytic activity | GO | Biological process | 3 | expanded | 4.91E-05 | 0.001572479 |
| GO:0008168 | methyltransferase activity | GO | Molecular function | 7 | expanded | 0.000142234 | 0.003792909 |
| GO:0032259 | methylation | GO | Biological process | 7 | expanded | 0.000219673 | 0.005021108 |
| GO:0030414 | peptidase inhibitor activity | GO | Molecular function | 3 | expanded | 0.000263266 | 0.005265319 |
| GO:0071557 | histone H3-K27 demethylation | GO | Biological process | 3 | expanded | 0.000749984 | 0.009230577 |
| GO:0071558 | histone demethylase activity (H3-K27 specific) | GO | Molecular function | 3 | expanded | 0.000749984 | 0.009230577 |
| GO:0008201 | heparin binding | GO | Molecular function | 2 | expanded | 0.0012123 | 0.01385486 |
| GO:0007399 | nervous system development | GO | Biological process | 3 | expanded | 0.001301808 | 0.013857991 |
| GO:0015031 | protein transport | GO | Biological process | 5 | expanded | 0.001547357 | 0.013857991 |
| GO:0006413 | translational initiation | GO | Biological process | 4 | expanded | 0.001818861 | 0.013857991 |
| GO:0003743 | translation initiation factor activity | GO | Molecular function | 4 | expanded | 0.001562116 | 0.013857991 |
| GO:0003723 | RNA binding | GO | Molecular function | 8 | expanded | 0.001675442 | 0.013857991 |
| GO:0005581 | collagen trimer | GO | Cellular component | 3 | expanded | 0.001495968 | 0.013857991 |
| GO:0005575 | cellular_component | GO | Cellular component | 4 | expanded | 0.0020297 | 0.014761451 |
| GO:0000272 | polysaccharide catabolic process | GO | Biological process | 2 | expanded | 0.002418597 | 0.016825021 |
| GO:0015074 | DNA integration | GO | Biological process | 3 | expanded | 0.002591176 | 0.017274507 |
