61 to 70 of 74 Results
Jan 30, 2020 -
Query sequences for the update of the ExED
Unknown - 8.7 KB -
MD5: 4f5de838715758c51a8cf33de96da0e8
Seed (query) sequences for the initial setup of the ExED. Protein sequences are given in FASTA format. Headers correspond to sequence identifiers in the style of UniprotKB. |
Jan 30, 2020 -
Query sequences for the update of the ExED
Unknown - 6.5 KB -
MD5: 5ae0036abf33f3585e5629a8337b7039
Seed (query) sequences for the first update of the ExED (USEARCH centroid sequences). Protein sequences are given in FASTA format with one line per sequence. Headers correspond to sequence identifiers of the Expansin Engineering Database. |
Jan 30, 2020 -
Query sequences for the update of the ExED
Tabular Data - 505 B - 1 Variables, 25 Observations - UNF:6:eFcDsa8udm3F11lB7M2q6w==
Tabular file with headers: sequence identifier from the Expansin Engineering Database (1st column) and NCBI accession.version (2nd column). This file lists the sequence accessions used in the first update of the ExED. |
Jan 27, 2020
Zeil, Catharina; Buchholz, Patrick C. F., 2020, "Query sequences for the update of the LccED", https://doi.org/10.18419/darus-559, DaRUS, V1, UNF:6:hIeqwMgxpY0QZZZ4FAMRvg== [fileUNF]
Query sequences for the individual BLAST searches used to update the Laccase and Multicopper Oxidase Engineering Database (LccED, https://lcced.biocatnet.de/). |
Jan 27, 2020 -
Query sequences for the update of the LccED
Tabular Data - 25.8 KB - 1 Variables, 1260 Observations - UNF:6:hIeqwMgxpY0QZZZ4FAMRvg==
Tabular file with headers: sequence identifier from the Laccase and Multicopper Oxidase Engineering Database (1st column) and NCBI accession.version (2nd column). |
Jan 27, 2020 -
Query sequences for the update of the LccED
Unknown - 711.0 KB -
MD5: 183e995371de29d926c275458b38fdf6
Protein sequences are given in FASTA format with one line per sequence. Headers correspond to sequence identifiers of the Laccase and Multicopper Oxidase Engineering Database. |
Sep 30, 2019
Bauer, Tabea, 2019, "The modular structure of alpha/beta-hydrolases: similarity of the N- and C-terminal domains to other proteins", https://doi.org/10.18419/darus-458, DaRUS, V1, UNF:6:pbQRgDXU4w7vnxyqxzzuRQ== [fileUNF]
To analyse the structural similarities of the N- and C-terminal domains, representative protein structures of each oxyanion hole type from the proteins of alpha/beta-hydrolase superfamilies 8 to 12 were selected from the Lipase Engineering Database (https://led.biocatnet.de/). Th... |
Sep 30, 2019 -
The modular structure of alpha/beta-hydrolases: similarity of the N- and C-terminal domains to other proteins
Tabular Data - 11.9 KB - 9 Variables, 173 Observations - UNF:6:UT/tuDCkMGlPeUykEk1hsw==
APAP (acylaminoacyl peptidase from Aeropyrum pernix K1) spreadsheet of Supplements01-1.xlsx as csv |
Sep 30, 2019 -
The modular structure of alpha/beta-hydrolases: similarity of the N- and C-terminal domains to other proteins
Tabular Data - 7.0 KB - 9 Variables, 103 Observations - UNF:6:ZKUns1L0wMyZIEclSuHQVQ==
DPPIV (human dipeptidyl peptidase IV) spreadsheet of Supplements01-1.xlsx as csv |
Sep 30, 2019 -
The modular structure of alpha/beta-hydrolases: similarity of the N- and C-terminal domains to other proteins
Tabular Data - 10.0 KB - 9 Variables, 154 Observations - UNF:6:bAQkev4V9Lkkkj8oTELKlg==
HEP (human epoxide hydrolase) spreadsheet of Supplements01-1.xlsx as csv |