"accession"	"counters"	"cross_references"	"description"	"entry_id"	"go_terms"	"hierarchy"	"integrated"	"is_llm"	"is_reviewed_llm"	"is_updated_llm"	"literature"	"member_databases"	"name"	"overlaps_with"	"representative_structure"	"set_info"	"source_database"	"type"	"wikipedia"
"IPR007434"	"{'subfamilies': 0, 'domain_architectures': 31, 'interactions': 0, 'matches': 9551, 'pathways': 0, 'proteins': 9453, 'proteomes': 6242, 'sets': 0, 'structural_models': {'alphafold': 7055, 'bfvd': 0}, 'structures': 0, 'taxa': 10528}"	"{}"	"[{'text': '<p>This is a family of both bacterial and plant proteins with responsibility for building interpeptide bridges in peptidoglycan. Such a function is feasible for bacteria but less likely for the plant members of this family. Perhaps the plant-members are using homologous proteins to recognise bacterial peptidoglcans as part of their innate immune system [[cite:PUB00075353]].</p>', 'llm': False, 'checked': False, 'updated': False}]"	""	""	"{'accession': 'IPR007434', 'name': 'Peptidogalycan biosysnthesis/recognition', 'type': 'Family', 'children': []}"	""	False	False	False	"{'PUB00075353': {'PMID': 20537955, 'ISBN': None, 'volume': '34', 'issue': '3', 'year': 2010, 'title': 'The challenge of annotating protein sequences: The tale of eight domains of unknown function in Pfam.', 'URL': None, 'raw_pages': '210-4', 'medline_journal': 'Comput Biol Chem', 'ISO_journal': 'Comput Biol Chem', 'authors': ['Goonesekere NC', 'Shipely K', ""O'Connor K.""], 'DOI_URL': 'http://dx.doi.org/10.1016/j.compbiolchem.2010.04.001'}}"	"{'panther': {'PTHR47017': 'ACYL-COA'}, 'pfam': {'PF04339': 'Peptidogalycan biosysnthesis/recognition'}}"	"{'name': 'Peptidogalycan biosysnthesis/recognition', 'short': 'FemAB-like'}"	""	""	""	"interpro"	"family"	""