NMPFamsDB

NMPFamsDB

NMPFamsDB

A database of Novel Metagenome Protein Families

A database of Novel Metagenome Protein Clusters

A database of Novel Metagenome Protein Clusters
x
This website uses cookies to improve user experience. By using NMPFamDB you consent to all cookies in accordance with our privacy policy. OK
Scaffold Ga0129350_1176908

Scaffold Ga0129350_1176908


Overview

Basic Information
Taxon OID3300012523 Open in IMG/M
Scaffold IDGa0129350_1176908 Open in IMG/M
Source Dataset NameFreshwater to marine salinity gradient microbial communities from Chesapeake Bay, USA - CPBay_Sum_27_0.8_RNA2 (Metagenome Metatranscriptome)
Source Dataset CategoryMetatranscriptome
Source Dataset Use PolicyOpen
Sequencing CenterDOE Joint Genome Institute (JGI)
Sequencing StatusPermanent Draft

Scaffold Components
Scaffold Length (bps)956
Total Scaffold Genes3 (view)
Total Scaffold Genes with Ribosome Binding Sites (RBS)0 (0.00%)
Novel Protein Genes1 (view)
Novel Protein Genes with Ribosome Binding Sites (RBS)0 (0.00%)
Associated Families1

Taxonomy
All Organisms → cellular organisms → Archaea → unclassified Archaea → archaeon(Source: UniRef50)

Ecosystem & Geography

Source Dataset Ecosystem
Environmental → Aquatic → Marine → Coastal → Unclassified → Aqueous → Aqueous Microbial Communities From The Delaware River/Bay And Chesapeake Bay Under Freshwater To Marine Salinity Gradient To Study Organic Matter Cycling In A Time-Series

Source Dataset Sampling Location
Location NameUSA: Chesapeake Bay
CoordinatesLat. (o)37.0306Long. (o)-76.0464Alt. (m)Depth (m)
Location on Map
Zoom:    Powered by OpenStreetMap ©

Associated Families

FamilyCategoryNumber of Sequences3D Structure?
F087223Metagenome / Metatranscriptome110Y

Sequences

Protein IDFamilyRBSSequence
Ga0129350_11769083F087223N/AMPIYSVPLWQSEYPEFEEHKEIFLNAVRTYKEENPTKETPRSNIAGYQSPSTLQGVEELRPLFEYICQMGFK

 ⦗Top⦘



© Pavlopoulos Lab, Bioinformatics & Integrative Biology | B.S.R.C. "Alexander Fleming" | Privacy Notice
Make sure JavaScript is enabled in your browser settings to achieve functionality.