ggKbase | features

Value	Algorithm	Source
copA; P-type transport ATPase (probable substrate copper/metal cation) (EC:3.6.3.-)	similarity	KEGG DB: KEGG
Identity: 75.0 Coverage: 663.0 Bit_score: 960 Evalue 3.20e-277
P-type transport ATPase (Probable substrate copper/metal cation) {ECO:0000313\|EMBL:CCQ36946.1}; EC=3.6.3.- {ECO:0000313\|EMBL:CCQ36946.1};; TaxID=268739 species="Archaea; Euryarchaeota; Halobacteria; H	similarity	UNIPROT DB: UniProtKB
Identity: 75.0 Coverage: 663.0 Bit_score: 960 Evalue 1.60e-276
P-type transport ATPase (Probable substrate copper/metal cation) n=1 Tax=Natronomonas moolapensis (strain DSM 18674 / JCM 14361 / 8.8.11) RepID=M1XRS2_NATM8	similarity	UNIREF DB: UNIREF100
Identity: 75.0 Coverage: 663.0 Bit_score: 960 Evalue 1.10e-276

Value

Algorithm

Source

copA; P-type transport ATPase (probable substrate copper/metal cation) (EC:3.6.3.-)

similarity

KEGG
DB: KEGG

Identity: 75.0
Coverage: 663.0
Bit_score: 960
Evalue 3.20e-277

P-type transport ATPase (Probable substrate copper/metal cation) {ECO:0000313|EMBL:CCQ36946.1}; EC=3.6.3.- {ECO:0000313|EMBL:CCQ36946.1};; TaxID=268739 species="Archaea; Euryarchaeota; Halobacteria; H

similarity

UNIPROT
DB: UniProtKB

Identity: 75.0
Coverage: 663.0
Bit_score: 960
Evalue 1.60e-276

P-type transport ATPase (Probable substrate copper/metal cation) n=1 Tax=Natronomonas moolapensis (strain DSM 18674 / JCM 14361 / 8.8.11) RepID=M1XRS2_NATM8

similarity

UNIREF
DB: UNIREF100

Identity: 75.0
Coverage: 663.0
Bit_score: 960
Evalue 1.10e-276

DNA sequence

Length: 3174

ATGCTGGCGACGGTGACGCCGCTGTCGCGGCCGGAAGCGCTCGTCGGCGTCCCGTTCGGCTGGGTCGAGTTCGGCATCGCGACGCTGCTGATGGCGACGCTCGGCCGGGAATTCCTCGCCGGCGCCGCGGCCGCCGCCCGAAACGGCACCGCGAACATGGACACGCTGGTCGCCGTCGGTACGACGGCCGGCTACGCGTTCAGCACGGGCGTCCTCCTGCTGGGCGTCCCCGGCGGGCGCTACTTCGAGGCCGTCGCGTTCATCCTGTGGTTCATCACGCTCGGCAACTGGCTGGAGGCCCGCTCGAAGGCCCGGGCCTCGAGCGCCCTCCGGGAGCTGCTGGAGCTGGAGGCCGACGAGGCGACCGTCGTCGAGGACGGCACGGAGACGACGGTCCCCGTCTCGGAACTCGCGGTCGGCGACCGGCTGAAGGTGCGGCCCGGCGAGCGGATTCCGACCGACGGCGTCGTCGTCGACGGCGAGTCGGCGGTCGACGAGTCGATGCTCACCGGCGAGTCCGTCCCGGTCGAGAAGACGCCGGGCGACGAGGTGGTCGGCTCGACGGTCAACGAAAACGGCGTGCTGGTCGTCGAGGCGACGAAGGTGGGCGACGACACCGCCGTCCAGCGCATCGTCCGCCGGGTGAAGGAGGCCCAGTCCCGCCAGCCCGACGTCCAGCGGCTCGCCGACGTCGTCTCCGGCTACTTCGTGACGGCGGTGCTGGCCAACGCCGTCCTCTGGGCGGTCGCGTGGCTGCTGTTCCCCGGCGTGCTGGACGCCGTCGTCTCGGTGCTGCCGCTGTGGGAGCCGGTCGGCGGCGGCCCCGTCGCCGGCGGCGTCTCCGCCCTGGAGTTCGCGGTCGTCGTCTTCGCGTCGGCGGTGCTTGTGGCCTGTCCCTGCGCACTGGGGCTGGCGACGCCGGCGGCGACGATGGTCGGCTCGACGGTCGCCGCCCGGAACGGCGTGCTCTTCGAGGGCGGCGACGTCCTCGAGACGGTCCGGGACGTCGACGCCGTCGTCTTCGACAAGACCGGCACGCTCACCGAGGGCGAGATGGAGCTGACCGACGTCGAGGCGGTCGGCCCCCGGGCCGACGGCGACCCGGCGCCGGACGGCGGCGCCGCCGCGGCGGTCGACGAGTCGTTCGTCCTCGCGGTCGCCGCGGCCGCCGAGTCCGGCTCCGAACACCCGCTCGGCGAGGCCGTCGTCGCCGGCGCCCGCGAGCGGGGCCTCGACGTCCCCGACGCCGACGACTTCGAGAACGTCCCCGGCAAGGGCGTCGAGGCGACGACCGACCGCGGCGAGGTGCTCGTCGGCAACCGCGCGCTCCTGGAGCGCAACGGCGTCGACCCGGCGCCCGCGGAGGCGACCGCCGAACGACTCGAGCGGGAGGGCAAGACCGCGATGCTGGTCGCGCTGGACGGCCGGGTCGCCGGCGTCGTCGCGGCCGCCGACACGGTCCGGGAGACCGCCGCCGACGCCGTCGCCGACCTCCAGGGTCGCGGCCTCGAGGTCCACATGCTCACCGGCGACAACGAGCGGACGGCCCGCGCGGTCGCGGAAGCGGTCGGCATCCCCGCCGACAATGTCCGAGCGGAGGTCCTGCCGGGCGAGAAGGCCGACGCCGTCGACGCGATCCAGGCCGACGGCACCCGGGCGATGATGGTCGGCGACGGTGTCAACGACGCGCCGGCGCTGACGGCCGCGGCCGTCGGCGTCGCCGTCGGCTCCGGCACCGACGTCGCCATCGAGTCCGCCGACGTGACGCTGATGCGGTCGGACCCCGGCGACGTCGTCCGGGCCGTCCGGCTGTCGGAGGCCACCATCGCGAAGGTGTGGCAGAACCTGTTCTGGGCGTTCGGCTACAACGCGGCGCTGATCCCGGTCGCCTCGCTCGGCCTGCTGAACCCCGCTCTCGCCGGCGCCGCGATGTCGGCCTCCAGCGTCTCGGTGATGTCCAACAGCCTGCTGTTCGCCCGCTACGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGCGACGAGCGCCGACGGCAAGCTCTCCTCGCGCCGCCGCGAACAGATCGCCATCAGCGGCGAGGAGGACTTCGCCCGCGTCGACCGACTGCGGGCCGAGGCCGACGCCGTCGCCGTCGGGGGCGGGACCGTTCTCGCCGACGACCCCTCCCTGGTCCGCCACGACGAGGCCCACCGCGCCGACCGTCGCGGCCCGGAGGCACCGCCACCGGCCCGCGTCGTCGTCGACTCCCGCTGTCGGACGCCGGCGGACGCCGCGATACTGGACGGCGCCCCCGACACGTACGTCCTGACGAGCGAGGCCGCCCCCGACGACCGCCGGGAGGCGCTCGCGGCGGCCGGGGGGACGCTCCTCGCCGCCGGCGACGACCGCGTCGACCTGCCGGCCGCCCTCGAGGCGCTGGCCGAGGAGGGCGTCGACCGCCTGATGATCGAGGGCGGCGGCGAACTCATCTTCTCGCTGTTCGAGGCCGGGCTGGTCGACGAGCTGTCGGTCTACGTCGGCGGGCTGGTCGTCGGCGGCCGGGAGGCGCCGACGCTGGCCGACGGCGACGGCTTCGTCGAGGCGTTCCCGGAGCTAACGCTCGACGGCGTCCGGCGACTCGACGACGGCGTCGTCCTGGAGTGGGACGTCGCCGGCCGGTAGGGAGGTCAGTGCTGGTGGCCGGTCAGCTCGGCGTAGCTGGCCCCGAACCGCTCCTCGAACAGCTCCATCGTCGCCGCCTCGACGTCCTGGTACCGCTCGGTGTCGCCGCCCTCGGCGTGGTGGACGGTCGCGTGGATGCGCTGGGCGCAGGAGAACAGCGCCAGGTCGCCGATGATCTCGGCGTCGGGCTCGTCGTCCTCGCGGAGCATATCCAGCATCTCGGTCGGAATGGTGACCTCGTCGTCGGCTGTCTCGCCCTCGACCCGGAACGTGACGGTGTCGTCTGCCATACCGACCGTTTCGCCGCGCGACAAAAGGCAGTTCCGGTCGCGCGTACGGCACGGCCCCGCTCGCCTCGTCGTCGGCGCCGTCAGTCGTCCGCGGCGGCGGTGTCGGTGTCGCTGCCGGCGGCCGTCCCGCCGCGCTCCAGCTCCTCGAGGTACTCGTCGGCGTCCATCGCCGCCTTGCAGCCCATGCCGCCGGCGGTGATGGCCTGCTGGTAG

PROTEIN sequence

Length: 1058

MLATVTPLSRPEALVGVPFGWVEFGIATLLMATLGREFLAGAAAAARNGTANMDTLVAVGTTAGYAFSTGVLLLGVPGGRYFEAVAFILWFITLGNWLEARSKARASSALRELLELEADEATVVEDGTETTVPVSELAVGDRLKVRPGERIPTDGVVVDGESAVDESMLTGESVPVEKTPGDEVVGSTVNENGVLVVEATKVGDDTAVQRIVRRVKEAQSRQPDVQRLADVVSGYFVTAVLANAVLWAVAWLLFPGVLDAVVSVLPLWEPVGGGPVAGGVSALEFAVVVFASAVLVACPCALGLATPAATMVGSTVAARNGVLFEGGDVLETVRDVDAVVFDKTGTLTEGEMELTDVEAVGPRADGDPAPDGGAAAAVDESFVLAVAAAAESGSEHPLGEAVVAGARERGLDVPDADDFENVPGKGVEATTDRGEVLVGNRALLERNGVDPAPAEATAERLEREGKTAMLVALDGRVAGVVAAADTVRETAADAVADLQGRGLEVHMLTGDNERTARAVAEAVGIPADNVRAEVLPGEKADAVDAIQADGTRAMMVGDGVNDAPALTAAAVGVAVGSGTDVAIESADVTLMRSDPGDVVRAVRLSEATIAKVWQNLFWAFGYNAALIPVASLGLLNPALAGAAMSASSVSVMSNSLLFARYXXXXXXXXXXXXXXRDERRRQALLAPPRTDRHQRRGGLRPRRPTAGRGRRRRRRGRDRSRRRPLPGPPRRGPPRRPSRPGGTATGPRRRRLPLSDAGGRRDTGRRPRHVRPDERGRPRRPPGGARGGRGDAPRRRRRPRRPAGRPRGAGRGGRRPPDDRGRRRTHLLAVRGRAGRRAVGLRRRAGRRRPGGADAGRRRRLRRGVPGANARRRPATRRRRRPGVGRRRPVGRSVLVAGQLGVAGPEPLLEQLHRRRLDVLVPLGVAALGVVDGRVDALGAGEQRQVADDLGVGLVVLAEHIQHLGRNGDLVVGCLALDPERDGVVCHTDRFAARQKAVPVARTARPRSPRRRRRQSSAAAVSVSLPAAVPPRSSSSRYSSASIAALQPMPPAVMACW*

sw_8_scaffold_5737_3

Organism: SW_8_UNK

Top 3 Functional Annotations

Lists

Notes

Taxonomy

Sequences

DNA sequence

PROTEIN sequence

sw_8_scaffold_5737_3

Organism: SW_8_UNK

Top 3 Functional Annotations

Lists

Notes

Taxonomy

Sequences

DNA sequence

PROTEIN sequence

Processing

Terms of Service

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