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| Field | Value |
|---|---|
| Gene ID | Lj2g3v1643230 |
| Transcript ID | Lj2g3v1643230.1 |
| Related isoforms 2 | |
| Lotus japonicus genome version | MG20 v3.0 |
| Description | PREDICTED: Werner syndrome ATP-dependent helicase homolog [Glycine max] gi|356569961|ref|XP_003553162.1| |
| Working Lj name | n.a. |
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
| Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
|---|---|---|---|---|---|---|
| PANTHER | 1 | 744 | 744 | 0 | – | |
| PANTHER | 1 | 744 | 744 | 0 | – | |
| Gene3D | 3 | 196 | 194 | 1.10E-53 | ||
| TIGRFAM | 6 | 458 | 453 | 1.50E-150 | ||
| SMART | 13 | 208 | 196 | 2.10E-30 | ||
| Pfam | 19 | 177 | 159 | 4.60E-18 | ||
| ProSiteProfiles | 25 | 192 | 168 | 22.6 | ||
| CDD | 32 | 173 | 142 | 3.54E-22 | – | |
| SUPERFAMILY | 57 | 340 | 284 | 4.03E-56 | ||
| Gene3D | 197 | 339 | 143 | 6.70E-40 | ||
| CDD | 202 | 334 | 133 | 9.91E-35 | – | |
| ProSiteProfiles | 216 | 380 | 165 | 20.722 | ||
| Pfam | 219 | 325 | 107 | 7.80E-21 | ||
| SMART | 245 | 326 | 82 | 7.20E-27 | ||
| Gene3D | 340 | 501 | 162 | 7.70E-46 | ||
| Pfam | 342 | 400 | 59 | 4.90E-13 | ||
| SUPERFAMILY | 398 | 501 | 104 | 5.17E-23 | ||
| Pfam | 404 | 500 | 97 | 7.50E-22 | ||
| SMART | 407 | 511 | 105 | 1.20E-21 | ||
| SUPERFAMILY | 541 | 617 | 77 | 2.40E-16 | ||
| ProSiteProfiles | 542 | 622 | 81 | 17.946 | ||
| SMART | 542 | 622 | 81 | 3.90E-05 | ||
| Pfam | 546 | 612 | 67 | 4.10E-13 | ||
| Gene3D | 547 | 617 | 71 | 9.50E-11 | ||
| Pfam | 653 | 750 | 98 | 1.10E-20 |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
| GO term | Namespace | Name | Definition | Relationships |
|---|---|---|---|---|
| Molecular function | Nucleotide binding | Interacting selectively and non-covalently with a nucleotide, any compound consisting of a nucleoside that is esterified with (ortho)phosphate or an oligophosphate at any hydroxyl group on the ribose or deoxyribose. | ||
| Molecular function | Nucleic acid binding | Interacting selectively and non-covalently with any nucleic acid. | ||
| Molecular function | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
| Molecular function | Helicase activity | Catalysis of the reaction: NTP + H2O = NDP + phosphate, to drive the unwinding of a DNA or RNA helix. | ||
| Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
| Biological process | DNA replication | The cellular metabolic process in which a cell duplicates one or more molecules of DNA. DNA replication begins when specific sequences, known as origins of replication, are recognized and bound by initiation proteins, and ends when the original DNA molecule has been completely duplicated and the copies topologically separated. The unit of replication usually corresponds to the genome of the cell, an organelle, or a virus. The template for replication can either be an existing DNA molecule or RNA. | ||
| Biological process | DNA repair | The process of restoring DNA after damage. Genomes are subject to damage by chemical and physical agents in the environment (e.g. UV and ionizing radiations, chemical mutagens, fungal and bacterial toxins, etc.) and by free radicals or alkylating agents endogenously generated in metabolism. DNA is also damaged because of errors during its replication. A variety of different DNA repair pathways have been reported that include direct reversal, base excision repair, nucleotide excision repair, photoreactivation, bypass, double-strand break repair pathway, and mismatch repair pathway. | ||
| Biological process | DNA recombination | Any process in which a new genotype is formed by reassortment of genes resulting in gene combinations different from those that were present in the parents. In eukaryotes genetic recombination can occur by chromosome assortment, intrachromosomal recombination, or nonreciprocal interchromosomal recombination. Interchromosomal recombination occurs by crossing over. In bacteria it may occur by genetic transformation, conjugation, transduction, or F-duction. | ||
| Molecular function | 3'-5' DNA helicase activity | Catalysis of the unwinding of the DNA helix in the direction 3' to 5'. | ||
| Biological process | Cellular metabolic process | The chemical reactions and pathways by which individual cells transform chemical substances. |
Expression pattern of Lj2g3v1643230.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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A list of the top 25 highly co-expressed genes of Lj2g3v1643230.1, powered by CORGI.
Loading co-expressed genes from the dataset ljgea-geneid. This will take 20–30 seconds to construct.