1 to 9 of 9 Results
May 20, 2021 - Glycoside Hydrolase 19 Engineering Database
Buchholz, Patrick C. F., 2021, "Sequence cross-references and taxonomic lineage for glycoside hydrolase family 19", https://doi.org/10.18419/darus-1163, DaRUS, V1, UNF:6:zi8TRxkq1C/pCN14pXTA0Q== [fileUNF]
The Glycoside Hydrolase 19 Engineering Database (GH19ED) contains information on protein sequences and structures of glycoside hydrolases from family 19. This dataset lists cross-references to the National Center for Biotechnology Information (NCBI), cross-references to the Prote... |
May 12, 2021 - Bioinformatics
Buchholz, Patrick C. F., 2021, "Consensus sequences of arylsulfatases and phosphonate monoester hydrolases", https://doi.org/10.18419/darus-1838, DaRUS, V1
A multiple sequence alignment was constructed by Clustal Omega for the 95 protein sequences annotated as homologues of arylsulfatases and the 85 protein sequences annotated as homologues of phosphonate monoester hydrolases, respectively. The HMMER software suite was used to deriv... |
May 3, 2021 - Bioinformatics
Heberlein, Magdalena, 2021, "Protein sequences of arylsulfatases, phosphonate monoester hydrolases, and reconstructed ancestors", https://doi.org/10.18419/darus-1801, DaRUS, V1
Protein sequences were derived from a maximum-likelihood phylogenetic tree for arylsulfatases and phosphonate monoester hydrolases, including a selection of reconstructed ancestral sequences. |
May 3, 2021 - Bioinformatics
Buchholz, Patrick C. F., 2021, "GraphML file for homologues and reconstructed ancestors of arylsulfatases and phosphonate monoester hydrolases", https://doi.org/10.18419/darus-817, DaRUS, V1
Protein sequence network for homologues of arylsulfatases and phosphonate monoester hydrolases, including reconstructed ancestral sequences from a maximum-likelihood phylogenetic tree. |
Jun 1, 2020 - Glycoside Hydrolase 19 Engineering Database
Orlando, Marco, 2020, "Profile hidden Markov models of the Glycoside Hydrolase 19 Engineering Database", https://doi.org/10.18419/darus-803, DaRUS, V1
A starting alignment was built if other sequences with a known PDB structure were available, by performing a GH19 domain structure-based alignment generated through the mmaker command implemented in ChimeraX. Other seed sequences in the same superfamily were added to this fixed s... |
Jun 1, 2020 - Glycoside Hydrolase 19 Engineering Database
Orlando, Marco, 2020, "GraphML files for protein sequence networks of glycoside hydrolase 19 homologues", https://doi.org/10.18419/darus-802, DaRUS, V1
GraphML files for undirected weighted graphs with nodes that represent protein sequences of glycoside hydrolase 19 homologues. Protein sequences were clustered by a threshold of 90% sequence identity to derive representative sequences. Pairwise sequence identity between two seque... |
Apr 9, 2020 - Expansin Engineering Database
Buchholz, Patrick C. F., 2020, "Expansin homologues in actinobacterial genomes from South Africa", https://doi.org/10.18419/darus-699, DaRUS, V1
Hit sequences for putative expansins (or expansin domains) are reported from an exemplary genome screening. Five actinobacterial genomes were selected to show the application of the Expansin Engineering Database (ExED) for the identification of expansin domains. The original nucl... |
Jan 30, 2020 - Expansin Engineering Database
Lohoff, Caroline, 2020, "GraphML files for protein sequence networks of expansin homologues", https://doi.org/10.18419/darus-624, DaRUS, V1
GraphML files for undirected weighted graphs with nodes that represent protein sequences of expansin homologues. Protein sequences were clustered by a threshold of sequence identity to derive representative sequences.Pairwise sequence identity between two sequences was derived fr... |
Jan 30, 2020 - Expansin Engineering Database
Lohoff, Caroline, 2020, "Profile hidden Markov models of the ExED", https://doi.org/10.18419/darus-623, DaRUS, V1
Profile hidden Markov models and their underlying multiple sequence alignments for the N- and C-terminal protein domains of expansins. |
