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LPSC_CLAP2
ID   LPSC_CLAP2              Reviewed;        1792 AA.
AC   M1VVW6; G8GV59;
DT   15-MAR-2017, integrated into UniProtKB/Swiss-Prot.
DT   01-MAY-2013, sequence version 1.
DT   25-MAY-2022, entry version 38.
DE   RecName: Full=D-lysergyl-peptide-synthetase subunit 3 {ECO:0000305|PubMed:15904941};
DE            Short=LPS3 {ECO:0000305};
DE            EC=2.3.1.- {ECO:0000269|PubMed:19139103};
DE   AltName: Full=Ergot alkaloid synthesis protein lpsC {ECO:0000303|PubMed:17720822};
DE   AltName: Full=Nonribosomal peptide synthetase 3 {ECO:0000303|PubMed:15904941};
GN   Name=lpsC {ECO:0000303|PubMed:17720822};
GN   Synonyms=cpps3 {ECO:0000303|PubMed:15904941}; ORFNames=CPUR_04085;
OS   Claviceps purpurea (strain 20.1) (Ergot fungus) (Sphacelia segetum).
OC   Eukaryota; Fungi; Dikarya; Ascomycota; Pezizomycotina; Sordariomycetes;
OC   Hypocreomycetidae; Hypocreales; Clavicipitaceae; Claviceps.
OX   NCBI_TaxID=1111077;
RN   [1]
RP   NUCLEOTIDE SEQUENCE [GENOMIC DNA].
RC   STRAIN=20.1;
RA   Florea S., Oeser B., Tudzynski P., Schardl C.L.;
RL   Submitted (JUN-2011) to the EMBL/GenBank/DDBJ databases.
RN   [2]
RP   NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA].
RC   STRAIN=20.1;
RX   PubMed=23468653; DOI=10.1371/journal.pgen.1003323;
RA   Schardl C.L., Young C.A., Hesse U., Amyotte S.G., Andreeva K., Calie P.J.,
RA   Fleetwood D.J., Haws D.C., Moore N., Oeser B., Panaccione D.G.,
RA   Schweri K.K., Voisey C.R., Farman M.L., Jaromczyk J.W., Roe B.A.,
RA   O'Sullivan D.M., Scott B., Tudzynski P., An Z., Arnaoudova E.G.,
RA   Bullock C.T., Charlton N.D., Chen L., Cox M., Dinkins R.D., Florea S.,
RA   Glenn A.E., Gordon A., Gueldener U., Harris D.R., Hollin W., Jaromczyk J.,
RA   Johnson R.D., Khan A.K., Leistner E., Leuchtmann A., Li C., Liu J., Liu J.,
RA   Liu M., Mace W., Machado C., Nagabhyru P., Pan J., Schmid J., Sugawara K.,
RA   Steiner U., Takach J.E., Tanaka E., Webb J.S., Wilson E.V., Wiseman J.L.,
RA   Yoshida R., Zeng Z.;
RT   "Plant-symbiotic fungi as chemical engineers: Multi-genome analysis of the
RT   Clavicipitaceae reveals dynamics of alkaloid loci.";
RL   PLoS Genet. 9:E1003323-E1003323(2013).
RN   [3]
RP   BIOTECHNOLOGY.
RC   STRAIN=P1 / 1029/N5;
RX   PubMed=11778866; DOI=10.1007/s002530100801;
RA   Tudzynski P., Correia T., Keller U.;
RT   "Biotechnology and genetics of ergot alkaloids.";
RL   Appl. Microbiol. Biotechnol. 57:593-605(2001).
RN   [4]
RP   FUNCTION.
RX   PubMed=14700635; DOI=10.1016/j.chembiol.2003.11.013;
RA   Correia T., Grammel N., Ortel I., Keller U., Tudzynski P.;
RT   "Molecular cloning and analysis of the ergopeptine assembly system in the
RT   ergot fungus Claviceps purpurea.";
RL   Chem. Biol. 10:1281-1292(2003).
RN   [5]
RP   FUNCTION.
RC   STRAIN=ATCC 20102 / Farmitalia FI 32/17;
RX   PubMed=14732265; DOI=10.1016/j.fgb.2003.10.002;
RA   Wang J., Machado C., Panaccione D.G., Tsai H.-F., Schardl C.L.;
RT   "The determinant step in ergot alkaloid biosynthesis by an endophyte of
RT   perennial ryegrass.";
RL   Fungal Genet. Biol. 41:189-198(2004).
RN   [6]
RP   IDENTIFICATION IN THE EAS CLUSTER, FUNCTION, AND DOMAIN.
RX   PubMed=15904941; DOI=10.1016/j.phytochem.2005.04.011;
RA   Haarmann T., Machado C., Lubbe Y., Correia T., Schardl C.L.,
RA   Panaccione D.G., Tudzynski P.;
RT   "The ergot alkaloid gene cluster in Claviceps purpurea: extension of the
RT   cluster sequence and intra species evolution.";
RL   Phytochemistry 66:1312-1320(2005).
RN   [7]
RP   FUNCTION.
RC   STRAIN=P1 / 1029/N5;
RX   PubMed=16538694; DOI=10.1002/cbic.200500487;
RA   Haarmann T., Ortel I., Tudzynski P., Keller U.;
RT   "Identification of the cytochrome P450 monooxygenase that bridges the
RT   clavine and ergoline alkaloid pathways.";
RL   ChemBioChem 7:645-652(2006).
RN   [8]
RP   FUNCTION.
RX   PubMed=17308187; DOI=10.1128/aem.00257-07;
RA   Fleetwood D.J., Scott B., Lane G.A., Tanaka A., Johnson R.D.;
RT   "A complex ergovaline gene cluster in epichloe endophytes of grasses.";
RL   Appl. Environ. Microbiol. 73:2571-2579(2007).
RN   [9]
RP   FUNCTION.
RX   PubMed=17720822; DOI=10.1128/aem.01040-07;
RA   Lorenz N., Wilson E.V., Machado C., Schardl C.L., Tudzynski P.;
RT   "Comparison of ergot alkaloid biosynthesis gene clusters in Claviceps
RT   species indicates loss of late pathway steps in evolution of C.
RT   fusiformis.";
RL   Appl. Environ. Microbiol. 73:7185-7191(2007).
RN   [10]
RP   FUNCTION.
RX   PubMed=17560817; DOI=10.1016/j.fgb.2007.04.008;
RA   Haarmann T., Lorenz N., Tudzynski P.;
RT   "Use of a nonhomologous end joining deficient strain (Deltaku70) of the
RT   ergot fungus Claviceps purpurea for identification of a nonribosomal
RT   peptide synthetase gene involved in ergotamine biosynthesis.";
RL   Fungal Genet. Biol. 45:35-44(2008).
RN   [11]
RP   FUNCTION, DOMAIN, CATALYTIC ACTIVITY, AND PATHWAY.
RX   PubMed=19139103; DOI=10.1074/jbc.m807168200;
RA   Ortel I., Keller U.;
RT   "Combinatorial assembly of simple and complex D-lysergic acid alkaloid
RT   peptide classes in the ergot fungus Claviceps purpurea.";
RL   J. Biol. Chem. 284:6650-6660(2009).
RN   [12]
RP   FUNCTION.
RX   PubMed=20118373; DOI=10.1128/aem.00737-09;
RA   Lorenz N., Olsovska J., Sulc M., Tudzynski P.;
RT   "Alkaloid cluster gene ccsA of the ergot fungus Claviceps purpurea encodes
RT   chanoclavine I synthase, a flavin adenine dinucleotide-containing
RT   oxidoreductase mediating the transformation of N-methyl-
RT   dimethylallyltryptophan to chanoclavine I.";
RL   Appl. Environ. Microbiol. 76:1822-1830(2010).
RN   [13]
RP   FUNCTION.
RC   STRAIN=ATCC 20102 / Farmitalia FI 32/17;
RX   PubMed=20735127; DOI=10.1021/ja105785p;
RA   Cheng J.Z., Coyle C.M., Panaccione D.G., O'Connor S.E.;
RT   "Controlling a structural branch point in ergot alkaloid biosynthesis.";
RL   J. Am. Chem. Soc. 132:12835-12837(2010).
RN   [14]
RP   FUNCTION.
RX   PubMed=21409592; DOI=10.1007/s00294-011-0336-4;
RA   Goetz K.E., Coyle C.M., Cheng J.Z., O'Connor S.E., Panaccione D.G.;
RT   "Ergot cluster-encoded catalase is required for synthesis of chanoclavine-I
RT   in Aspergillus fumigatus.";
RL   Curr. Genet. 57:201-211(2011).
RN   [15]
RP   FUNCTION.
RX   PubMed=21494745; DOI=10.1039/c0ob01215g;
RA   Matuschek M., Wallwey C., Xie X., Li S.M.;
RT   "New insights into ergot alkaloid biosynthesis in Claviceps purpurea: an
RT   agroclavine synthase EasG catalyses, via a non-enzymatic adduct with
RT   reduced glutathione, the conversion of chanoclavine-I aldehyde to
RT   agroclavine.";
RL   Org. Biomol. Chem. 9:4328-4335(2011).
RN   [16]
RP   FUNCTION.
RX   PubMed=24361048; DOI=10.1016/j.chembiol.2013.11.008;
RA   Havemann J., Vogel D., Loll B., Keller U.;
RT   "Cyclolization of D-lysergic acid alkaloid peptides.";
RL   Chem. Biol. 21:146-155(2014).
CC   -!- FUNCTION: D-lysergyl-peptide-synthetase subunit 3; part of the gene
CC       cluster that mediates the biosynthesis of fungal ergot alkaloid
CC       (PubMed:14732265, PubMed:14700635, PubMed:15904941, PubMed:17308187,
CC       PubMed:17720822). DmaW catalyzes the first step of ergot alkaloid
CC       biosynthesis by condensing dimethylallyl diphosphate (DMAP) and
CC       tryptophan to form 4-dimethylallyl-L-tryptophan (PubMed:14732265). The
CC       second step is catalyzed by the methyltransferase easF that methylates
CC       4-dimethylallyl-L-tryptophan in the presence of S-adenosyl-L-
CC       methionine, resulting in the formation of 4-dimethylallyl-L-abrine (By
CC       similarity). The catalase easC and the FAD-dependent oxidoreductase
CC       easE then transform 4-dimethylallyl-L-abrine to chanoclavine-I which is
CC       further oxidized by easD in the presence of NAD(+), resulting in the
CC       formation of chanoclavine-I aldehyde (PubMed:20118373,
CC       PubMed:21409592). Agroclavine dehydrogenase easG then mediates the
CC       conversion of chanoclavine-I aldehyde to agroclavine via a non-
CC       enzymatic adduct reaction: the substrate is an iminium intermediate
CC       that is formed spontaneously from chanoclavine-I aldehyde in the
CC       presence of glutathione (PubMed:20735127, PubMed:21494745). The
CC       presence of easA is not required to complete this reaction
CC       (PubMed:21494745). Further conversion of agroclavine to paspalic acid
CC       is a two-step process involving oxidation of agroclavine to
CC       elymoclavine and of elymoclavine to paspalic acid, the second step
CC       being performed by the elymoclavine oxidase cloA (PubMed:16538694,
CC       PubMed:17720822). Paspalic acid is then further converted to D-lysergic
CC       acid (PubMed:15904941). Ergopeptines are assembled from D-lysergic acid
CC       and three different amino acids by the D-lysergyl-peptide-synthetases
CC       composed each of a monomudular and a trimodular nonribosomal peptide
CC       synthetase subunit (PubMed:14700635, PubMed:15904941). LpsB and lpsC
CC       encode the monomodular subunits responsible for D-lysergic acid
CC       activation and incorporation into the ergopeptine backbone
CC       (PubMed:14700635). LpsA1 and A2 subunits encode the trimodular
CC       nonribosomal peptide synthetase assembling the tripeptide portion of
CC       ergopeptines (PubMed:14700635). LpsA1 is responsible for formation of
CC       the major ergopeptine, ergotamine, and lpsA2 for alpha-ergocryptine,
CC       the minor ergopeptine of the total alkaloid mixture elaborated by
CC       C.purpurea (PubMed:17560817, PubMed:19139103). D-lysergyl-tripeptides
CC       are assembled by the nonribosomal peptide synthetases and released as
CC       N-(D-lysergyl-aminoacyl)-lactams (PubMed:24361048). Cyclolization of
CC       the D-lysergyl-tripeptides is performed by the Fe(2+)/2-ketoglutarate-
CC       dependent dioxygenase easH which introduces a hydroxyl group into N-(D-
CC       lysergyl-aminoacyl)-lactam at alpha-C of the aminoacyl residue followed
CC       by spontaneous condensation with the terminal lactam carbonyl group
CC       (PubMed:24361048). {ECO:0000250|UniProtKB:Q50EL0,
CC       ECO:0000269|PubMed:14700635, ECO:0000269|PubMed:14732265,
CC       ECO:0000269|PubMed:15904941, ECO:0000269|PubMed:16538694,
CC       ECO:0000269|PubMed:17560817, ECO:0000269|PubMed:19139103,
CC       ECO:0000269|PubMed:20118373, ECO:0000269|PubMed:20735127,
CC       ECO:0000269|PubMed:21409592, ECO:0000269|PubMed:21494745,
CC       ECO:0000269|PubMed:24361048, ECO:0000305|PubMed:17308187,
CC       ECO:0000305|PubMed:17720822}.
CC   -!- PATHWAY: Alkaloid biosynthesis; ergot alkaloid biosynthesis.
CC       {ECO:0000269|PubMed:19139103}.
CC   -!- DOMAIN: NRP synthetases are composed of discrete domains (adenylation
CC       (A), thiolation (T) or peptidyl carrier protein (PCP) and condensation
CC       (C) domains) which when grouped together are referred to as a single
CC       module (PubMed:14700635). Each module is responsible for the
CC       recognition (via the A domain) and incorporation of a single amino acid
CC       into the growing peptide product (PubMed:14700635). Thus, an NRP
CC       synthetase is generally composed of one or more modules and can
CC       terminate in a thioesterase domain (TE) or reductase domain (R) that
CC       releases the newly synthesized peptide from the enzyme
CC       (PubMed:14700635). LpsC is composed of only one module which is
CC       required for the activation of D-lysergic acid activation and its
CC       incorporation in the final ergot alkaloid (PubMed:19139103).
CC       {ECO:0000269|PubMed:14700635}.
CC   -!- SIMILARITY: Belongs to the NRP synthetase family. {ECO:0000305}.
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DR   EMBL; JN186799; AET79177.1; -; Genomic_DNA.
DR   EMBL; CAGA01000020; CCE30237.1; -; Genomic_DNA.
DR   AlphaFoldDB; M1VVW6; -.
DR   SMR; M1VVW6; -.
DR   STRING; 5111.M1VVW6; -.
DR   EnsemblFungi; CCE30237; CCE30237; CPUR_04085.
DR   VEuPathDB; FungiDB:CPUR_04085; -.
DR   eggNOG; KOG1178; Eukaryota.
DR   HOGENOM; CLU_000022_60_3_1; -.
DR   OrthoDB; 4243at2759; -.
DR   UniPathway; UPA00327; -.
DR   Proteomes; UP000016801; Unassembled WGS sequence.
DR   GO; GO:0016874; F:ligase activity; IEA:UniProtKB-KW.
DR   GO; GO:0016740; F:transferase activity; IEA:UniProtKB-KW.
DR   GO; GO:0035835; P:indole alkaloid biosynthetic process; IEA:UniProtKB-UniPathway.
DR   Gene3D; 1.10.1200.10; -; 1.
DR   Gene3D; 3.30.300.30; -; 1.
DR   Gene3D; 3.30.559.10; -; 1.
DR   Gene3D; 3.40.50.12780; -; 1.
DR   InterPro; IPR036736; ACP-like_sf.
DR   InterPro; IPR045851; AMP-bd_C_sf.
DR   InterPro; IPR000873; AMP-dep_Synth/Lig.
DR   InterPro; IPR042099; ANL_N_sf.
DR   InterPro; IPR023213; CAT-like_dom_sf.
DR   InterPro; IPR001242; Condensatn.
DR   InterPro; IPR013120; Far_NAD-bd.
DR   InterPro; IPR036291; NAD(P)-bd_dom_sf.
DR   InterPro; IPR009081; PP-bd_ACP.
DR   InterPro; IPR006162; Ppantetheine_attach_site.
DR   InterPro; IPR010080; Thioester_reductase-like_dom.
DR   Pfam; PF00501; AMP-binding; 1.
DR   Pfam; PF00668; Condensation; 1.
DR   Pfam; PF07993; NAD_binding_4; 1.
DR   Pfam; PF00550; PP-binding; 1.
DR   SUPFAM; SSF47336; SSF47336; 1.
DR   SUPFAM; SSF51735; SSF51735; 1.
DR   TIGRFAMs; TIGR01746; Thioester-redct; 1.
DR   PROSITE; PS50075; CARRIER; 1.
DR   PROSITE; PS00012; PHOSPHOPANTETHEINE; 1.
PE   1: Evidence at protein level;
KW   Ligase; Phosphopantetheine; Phosphoprotein; Reference proteome;
KW   Transferase.
FT   CHAIN           1..1792
FT                   /note="D-lysergyl-peptide-synthetase subunit 3"
FT                   /id="PRO_0000439114"
FT   DOMAIN          779..853
FT                   /note="Carrier"
FT                   /evidence="ECO:0000255|PROSITE-ProRule:PRU00258"
FT   REGION          239..642
FT                   /note="Adenylation (A) domain"
FT                   /evidence="ECO:0000255"
FT   REGION          895..1285
FT                   /note="Condensation (C) domain"
FT                   /evidence="ECO:0000255"
FT   REGION          1415..1640
FT                   /note="Reductase (R) domain"
FT                   /evidence="ECO:0000255"
FT   MOD_RES         813
FT                   /note="O-(pantetheine 4'-phosphoryl)serine"
FT                   /evidence="ECO:0000255|PROSITE-ProRule:PRU00258"
SQ   SEQUENCE   1792 AA;  197314 MW;  1D7DA13C3EB84A94 CRC64;
     MNSIKLKFNC KDSLWQEHIG AGDFSFAAIF LTTWGIVLRA YLDTDDVFFE YGLSRCEPVS
     QRDGIDELVP DRPFNLKFDG SMTVKDTIRR ADSVVYGTPL VQDGLEHETH RETDPKRETF
     YSTCMLFLDG PKSPIDADVV EGTILDDIEF EMKPVVNYDM VVYVLSGKVC YLSYNVTRVS
     DDQAAHVAAT FETVAKCIAD VPHRLVQEVE SLSQLDVDRL KTWNAYQPIA VETCYQDLFR
     QRCDLHPNSP AVIAWDGSFT YDELDHFSSL LATRLQAAGI GPDVFVTICA TRCRWIPVAM
     LGIIKARGAF CALDLSHPLD RLKDICDALK STITITTPTD SNIARKLAST VIVIGGDAPV
     ESDRITPMND RPKPINGHPT NALYSVFTSG SSGKPKGVVV EHRSFVSSAL ASIQPLDIRP
     HDRVLHFSAY AFDISVFEVL TPLISGATIA IPSEKRRKES LTHAVQELGA TWALLTPTVA
     RLYDPDEFPS LRTLALGGEL AQASDIALWQ SKNVVVIYNP AECCPIGVSG PACPADGKFL
     GWSHTCQRAW IVDPRDHDKL PPIGAVGELL IEGPVVARCY AHDPNFSSPD SPFIQSTPSW
     MLRLRSNTPS GTRLYRTGDL ARYGSDASLY YMGRKDSQIK IRGQRTEPGE IESNLHSILS
     KDKLGVAIVV LELRGSSKII AFVSKDTGGL GGDSNTVGQL RIEAATEETD VCITKATSKL
     HSIMPAYMVP SAFLSVNYIP ISRSGKIDRT RLKSFALSLP QETLLRVNNG LETGDLPESN
     EEHRLQRMYS LVLGISRDKV GMESDFFRLG GDSLQAMKLL ALAPKEGLTD ISYEDIFRYP
     RLKDLARKAS QSVTIKKDGF GENSSVIHPF SLVIDGQSLI DMAAKQCDIE RDSIEDIYPC
     TPMQASIISL AVKGKIMPFL TFGLALRDHV DTKRVKDTWH AAYRANSLLR TRIIVCAETG
     QLYQVVVGGD IFWDDDECGN FAQPKSGPSA SIGGPLVRMK LVEGQLSIAI HRALYDNWSI
     RQLLNDISGA YNGLTLPSRP SFNCYVSYAA RSLEAASSFC NAELGDSDLD AAKYPEPVSQ
     NSHTNFRAWL GIRVFTCQKE SIDVLASEFQ LAWAMIAYAR TNKKDVVFGV LSSGRSNASK
     DTKEIMGPIA TVTPLRVTID GTQDVGGALE ELQYRQEEQA MYTHLGLRRI GQLGRNAAAA
     CQIQTVLIVE PDLPDLRGVW FSNDATLPNH SDADASNYRL TIKCVVGPDC TDIFAIFDHQ
     SLPIMEVKEI LSQFEHILGQ IHGKEASQLS VASIDTVNFK DWDTLHKLTE MPSVCRNGLL
     LSDPTILPQG QMKTFSAVEE AAAHCAFQDS LQEASIARDA KMQPKEPLSS ADLISEINRY
     DLAIMRSRPS PESILLSELA LTGDSHSSGT HTVFVTGANG FIGTQILRHC LEDPTIDRVI
     ALVRGSSANE ARSRTEESAR RAQWWSDCHS QKLEVWPGDL AMPHLGLNET HWRRLADRTT
     INAIIHNGAS VHWLKRYADL EATNVGATAQ LLQLAVANPR LGFVYVSSGR YTDPNAESEE
     PAAANVAATA MPYSQTKFVA ESLIRRTAAR LPHGQTQVRI ISLGLVIGDP LTGVVNADDY
     LWRLIATCVQ AGEFNSSAGS EWMPISDVTS TALAIVQTAL NPAGVPATIK PITGGLMWSE
     IWDLVTDMGY DMEPRPESEW MATVRRDLER EQERHPLWTL SHLVESRSQL NTDAGAGPAW
     ADAWRGDEAT TRNLKTAFRR SLRFLGEVGF LPGQKGQNTD GEVNGRAFTR AW
 
 
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