#=GF ID 2Fe-2S_Ferredox
#=GF AC PF11591.12
#=GF DE Ferredoxin chloroplastic transit peptide
#=GF AU Pollington J;0000-0002-8158-8998
#=GF SE pdb_1fct
#=GF GA 25.00 25.00;
#=GF TC 25.50 42.40;
#=GF NC 23.40 22.80;
#=GF BM hmmbuild HMM.ann SEED.ann
#=GF SM hmmsearch -E 1000 --cpu 4 -Z 75585367 HMM pfamseq
#=GF TP Family
#=GF RN [1]
#=GF RM 8174712
#=GF RT NMR structures of ferredoxin chloroplastic transit peptide from
#=GF RT Chlamydomonas reinhardtii promoted by trifluoroethanol in
#=GF RT aqueous solution.
#=GF RA Lancelin JM, Bally I, Arlaud GJ, Blackledge M, Gans P, Stein M,
#=GF RA Jacquot JP;
#=GF RL FEBS Lett. 1994;343:261-266.
#=GF RN [2]
#=GF RM 17660315
#=GF RT Atomic resolution modeling of the ferredoxin:[FeFe] hydrogenase
#=GF RT complex from Chlamydomonas reinhardtii.
#=GF RA Chang CH, King PW, Ghirardi ML, Kim K;
#=GF RL Biophys J. 2007;93:3034-3045.
#=GF DR INTERPRO; IPR023383;
#=GF DR SO; 0100021; polypeptide_conserved_region;
#=GF CC The structure of chloroplast ferredoxin in water is unstructured
#=GF CC however in a 30:70 molar-ratio mixture of
#=GF CC 2,2,2-trifluoroethanol, residues 3 to 13 form an alpha-helix.
#=GF CC The rest of the peptide remains unstructured [1]. This family is
#=GF CC the N-terminal of the [2Fe-2S) ferredoxin from C.reinhardtii.
#=GF CC This protein catalyses the final reaction in a pathway which
#=GF CC allows the production of H(2) from water in the chloroplast [2].
#=GF SQ 13
#=GS A0A8J4F2D6_9CHLO/1-34 AC A0A8J4F2D6.1
#=GS A0A150GFJ1_GONPE/1-33 AC A0A150GFJ1.1
#=GS Q1WLW8_CHLIN/1-32 AC Q1WLW8.1
#=GS A0A835WI88_9CHLO/1-32 AC A0A835WI88.1
#=GS A8IV40_CHLRE/1-32 AC A8IV40.1
#=GS A0A2J8AGT4_9CHLO/1-33 AC A0A2J8AGT4.1
#=GS A0A8J4CWB6_9CHLO/1-34 AC A0A8J4CWB6.1
#=GS D8U0Z8_VOLCA/1-34 AC D8U0Z8.1
#=GS A0A150GFH7_GONPE/1-33 AC A0A150GFH7.1
#=GS A0A836BX86_9CHLO/1-33 AC A0A836BX86.1
#=GS A0A835Y0A3_9CHLO/1-33 AC A0A835Y0A3.1
#=GS A1YQX2_VOLCA/1-34 AC A1YQX2.1
#=GS A0A2J8AGS4_9CHLO/1-33 AC A0A2J8AGS4.1
A0A8J4F2D6_9CHLO/1-34 MAMMMRSSVAARVAAA.RPAVRAARPSARTVSVQA
A0A150GFJ1_GONPE/1-33 MALAMRSSFAARV-GAsRPAVRASRPATR-MTCSA
Q1WLW8_CHLIN/1-32 MAMAMRSTFAARV-GA.KPAVRGARPASR-MSCMA
A0A835WI88_9CHLO/1-32 MAFAMRSSMAARV-GA.KPAVRGARPSSR-MTCMA
A8IV40_CHLRE/1-32 MAMAMRSTFAARV-GA.KPAVRGARPASR-MSCMA
A0A2J8AGT4_9CHLO/1-33 MAMAMRSSFAARVSGP.RPAVRGARPASR-MSMSA
A0A8J4CWB6_9CHLO/1-34 MAMVMRSSIAARVAAA.RPAVRAARPSARTVSVQA
D8U0Z8_VOLCA/1-34 MAMTMRSSFAARVAGS.RPAVRAARPSARTVSVNA
A0A150GFH7_GONPE/1-33 MALAMRSSFAARV-GAsRPAVRASRPATR-MTCSA
A0A836BX86_9CHLO/1-33 MAMTMRSSFAARVAGS.RPAVRGARPASR-MSCMA
A0A835Y0A3_9CHLO/1-33 MAMTMRSSFAARVAGS.RPAVRGARPASR-MSCMA
A1YQX2_VOLCA/1-34 MSMAVRSSFAARVAGA.RPAVRAARPSARTVSVNA
A0A2J8AGS4_9CHLO/1-33 MAMAMRSSFAARVAGA.RPAVRGARPASR-MSVSA
#=GC seq_cons MAMAMRSSFAARVuGA.RPAVRuARPAoR.MSspA
//