{"metadata":{"accession":"IPR007011","entry_id":null,"type":"domain","go_terms":null,"source_database":"interpro","member_databases":{"pfam":{"PF04927":"Seed maturation protein"}},"integrated":null,"hierarchy":{"accession":"IPR007011","name":"Late embryogenesis abundant protein, SMP subgroup domain","type":"Domain","children":[]},"name":{"name":"Late embryogenesis abundant protein, SMP subgroup domain","short":"LEA_SMP_dom"},"description":[{"text":"<p>This entry represents Pfam SMP, or D-34 from Dure, or group 6 from Bray.</p>","llm":false,"checked":false,"updated":false},{"text":"<p>LEA (late embryogenesis abundant) proteins were first identified in land plants. Plant LEA proteins have been found to accumulate to high levels during the last stage of seed formation (when a natural desiccation of the seed tissues takes place) and during periods of water deficit in vegetative organs. Later, LEA homologues have also been found in various species [[cite:PUB00088596], [cite:PUB00009713]]. They have been classified into several subgroups in Pfam and according to Bray and Dure [[cite:PUB00088595]].</p>","llm":false,"checked":false,"updated":false}],"wikipedia":null,"literature":{"PUB00088595":{"PMID":18318901,"ISBN":null,"volume":"9","issue":null,"year":2008,"title":"LEA (late embryogenesis abundant) proteins and their encoding genes in Arabidopsis thaliana.","URL":null,"raw_pages":"118","medline_journal":"BMC Genomics","ISO_journal":"BMC Genomics","authors":["Hundertmark M","Hincha DK."],"DOI_URL":"https://doi.org/10.1186/1471-2164-9-118"},"PUB00088596":{"PMID":21034219,"ISBN":null,"volume":"73","issue":null,"year":2011,"title":"LEA proteins during water stress: not just for plants anymore.","URL":null,"raw_pages":"115-34","medline_journal":"Annu Rev Physiol","ISO_journal":"Annu. Rev. Physiol.","authors":["Hand SC","Menze MA","Toner M","Boswell L","Moore D."],"DOI_URL":"https://doi.org/10.1146/annurev-physiol-012110-142203"},"PUB00009713":{"PMID":10681550,"ISBN":null,"volume":"275","issue":"8","year":2000,"title":"Highly hydrophilic proteins in prokaryotes and eukaryotes are common during conditions of water deficit.","URL":null,"raw_pages":"5668-74","medline_journal":"J Biol Chem","ISO_journal":"J. Biol. Chem.","authors":["Garay-Arroyo A","Colmenero-Flores JM","Garciarrubio A","Covarrubias AA."],"DOI_URL":"http://dx.doi.org/10.1074/jbc.275.8.5668"}},"set_info":null,"overlaps_with":null,"counters":{"subfamilies":0,"domain_architectures":45,"interactions":0,"matches":6046,"pathways":0,"proteins":2752,"proteomes":762,"sets":0,"structural_models":{"alphafold":2393,"bfvd":0},"structures":0,"taxa":2090},"entry_annotations":{"alignment:seed":81,"alignment:full":3429},"cross_references":{},"is_llm":false,"is_reviewed_llm":false,"is_updated_llm":false,"representative_structure":null}}