#=GF ID bDLD1
#=GF AC PF20689.1
#=GF DE Bacterial Death-like domain 1
#=GF AU Aravind L;0000-0003-0771-253X
#=GF AU Iyer LM;0000-0002-4844-2022
#=GF AU Chuguransky S;0000-0002-0520-0736
#=GF SE Aravind L
#=GF GA 25.00 25.00;
#=GF TC 25.20 26.10;
#=GF NC 20.70 19.20;
#=GF BM hmmbuild HMM.ann SEED.ann
#=GF SM hmmsearch -Z 75585367 -E 1000 --cpu 4 HMM pfamseq
#=GF TP Family
#=GF CL CL0041
#=GF RN [1]
#=GF RM 32101166
#=GF RT Highly regulated, diversifying NTP-dependent biological conflict
#=GF RT systems with implications for the emergence of multicellularity.
#=GF RA Kaur G, Burroughs AM, Iyer LM, Aravind L;
#=GF RL Elife. 2020; [Epub ahead of print]
#=GF RN [2]
#=GF RM 34061031
#=GF RT Bacterial death and TRADD-N domains help define novel apoptosis
#=GF RT and immunity mechanisms shared by prokaryotes and metazoans.
#=GF RA Kaur G, Iyer LM, Burroughs AM, Aravind L;
#=GF RL Elife. 2021; [Epub ahead of print]
#=GF DR SO; 0100021; polypeptide_conserved_region;
#=GF CC This bacterial adaptor domain of the Death-domain fold is
#=GF CC involved in protein-protein interactions in biological conflict
#=GF CC systems. bDLDs show a characteristic architectural pattern. One
#=GF CC copy is always fused, typically to the N- or C-terminus, of a
#=GF CC core component of a biological conflict system; examples include
#=GF CC VMAP and iSTAND. Further copies of the same bDLD are fused to
#=GF CC either effector or signal-transducing domains, or additional
#=GF CC Effector-associated domains (EADs). bDLD pairs are frequently
#=GF CC observed together on the genome in conserved gene neighborhoods,
#=GF CC but can also be severed from such neighborhoods and located in
#=GF CC distant regions, indicating the bDLD-bDLD coupling approximates
#=GF CC the advantages of collinear transcription [1,2].
#=GF SQ 8
#=GS A0A8J7F146_9CYAN/1-71 AC A0A8J7F146.1
#=GS A0A8J7F2T0_9CYAN/3-104 AC A0A8J7F2T0.1
#=GS A0A139WX65_9CYAN/20-124 AC A0A139WX65.1
#=GS A0A8J7JSQ3_9CYAN/1-103 AC A0A8J7JSQ3.1
#=GS A0A8J7FEJ2_9CYAN/405-509 AC A0A8J7FEJ2.1
#=GS A0A844MDS8_9CYAN/1-105 AC A0A844MDS8.1
#=GS A0A8J3IUL4_9CHLR/1-108 AC A0A8J3IUL4.1
#=GS A0A139WX44_9CYAN/1-52 AC A0A139WX44.1
A0A8J7F146_9CYAN/1-71 .m-AGIPPQLLNKLRQALLLCEQFESDRKLRPIF.T.YEPLRPWRFSLPQADSLTSRVDNLIGFLV-----.-.-.-.-----------------------------------pnpppnalv........
A0A8J7F2T0_9CYAN/3-104 .g--GLPKELNHRCRQVFLQCDEFKHYDALIAVF.V.TDELLPFKSEIRNANNRKQLVDFCLEDLLQKRIK.S.G.K.PVLEIFLATLKDKYEVGNALHDELAA---------lyrdvhl..........
A0A139WX65_9CYAN/20-124 ..IIGIPNHFYTRCRNVLLQCEEFDTNAKLRAIF.I.TEKLNPFSLGLPEATNITERVDLCLNYLLQKRHS.S.G.E.PVFPIFLEVLRDRYLEGNALREELTQCMEEAKQIW.................
A0A8J7JSQ3_9CYAN/1-103 .m-AGIPPQLHKRLRNVLLECEQFESDRNLKTIF.T.NESLRPWRSSLPQADSLNSRVDYLIAFLVNKRRS.DtK.E.NALVLFVRLLSELIDEADNRHQ-------------qlkhlaaele.......
A0A8J7FEJ2_9CYAN/405-509 ts--GIPPKIYSKLRNALLDCEQFDSVQQLRNFFkL.NTPLKPWRS-CWKAGSPSEMVEDAIGYLHDKFRSdT.K.E.NALIILVRLLADSIDPGDSRNQIL-----------adlaqelsvv.......
A0A844MDS8_9CYAN/1-105 .m-AGIPSQLLNRLRQALLQCEQFASDRNLRSVF.FnNEPLRPWRSNLPQADSLTSRVDNVIGFLVDKRRS.D.TqE.NALVLLLRSLSNLIDE-------------------ederhqqlanlasevei
A0A8J3IUL4_9CHLR/1-108 mp--GIPGPLLASLRDTLSDCDEFENYNTLKAVF.V.HELLVPWRKRLRSAGNPLGLADETINLLWQESRS.D.T.KtNALVLLLIVLRDRYKPDTDLYERLD----------glacdleqalqa.....
A0A139WX44_9CYAN/1-52 ..--------------------------------.-.--------------------MDLCLNYLLQNRHR.S.G.E.SILLIFLEVLRDRYPEENALHEELNECIRKAE---lyl..............
#=GC seq_cons ....GIPspLhs+LRpsLLpCEpF-osppL+slF.h.sE.LpPWRppL.pAsshsphVD.sIsaLlpKR+S.s.s.E.ssLllhLclLpDphc.ssshpp.L.............ht.t..h........
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