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Gene Model: Gli3

NomenclatureGenomic Location
SymbolGli3Chromosome1
NameTranscriptional activator GLI3Linkage mapunknown
SpeciesDracomimus familiarisGenome CoordinatesChr1: 41 Mbp

Molecular Function

Has a dual function as a transcriptional activator and a repressor of the sonic hedgehog (Shh) pathway, and plays a role in limb development. The full-length GLI3 form (GLI3FL) after phosphorylation and nuclear translocation, acts as an activator (GLI3A) while GLI3R, its C-terminally truncated form, acts as a repressor. A proper balance between the GLI3 activator and the repressor GLI3R, rather than the repressor gradient itself or the activator/repressor ratio gradient, specifies limb digit number and identity. In concert with TRPS1, plays a role in regulating the size of the zone of distal chondrocytes, in restricting the zone of PTHLH expression in distal cells and in activating chondrocyte proliferation. Binds to the minimal GLI-consensus sequence 5'-GGGTGGTC-3'.

Molecular Function Terms:

binding
   chromatin binding
   ion binding
      cation binding
         metal ion binding
   nucleic acid binding
      DNA binding
         sequence-specific DNA binding
   protein binding
      beta-catenin binding
      enzyme binding
         histone acetyltransferase binding
         histone deacetylase binding

nucleic acid binding transcription factor activity
   sequence-specific DNA binding transcription factor activity

Human Disease Association

Defects in GLI3 are the cause of Greig cephalo-poly-syndactyly syndrome (GCPS) [MIM:175700]. GCPS is an autosomal dominant disorder affecting limb and craniofacial development. It is characterized by pre- and postaxial polydactyly, syndactyly of fingers and toes, macrocephaly and hypertelorism.

Defects in GLI3 are a cause of Pallister-Hall syndrome (PHS) [MIM:146510]. PHS is characterized by a wide range of clinical manifestations. It mainly associates central or postaxial polydactyly, syndactyly, and hypothalamic hamartoma. Malformations are frequent in the viscera, e.g. anal atresia, bifid uvula, congenital heart malformations, pulmonary or renal dysplasia. It is an autosomal dominant disorder.

Defects in GLI3 are a cause of type A1/B postaxial polydactyly (PAPA1/PAPB) [MIM:174200, MIM:603596]. PAPA in humans is an autosomal dominant trait characterized by an extra digit in the ulnar and/or fibular side of the upper and/or lower extremities. The extra digit is well formed and articulates with the fifth, or extra, metacarpal/metatarsal, and thus it is usually functional.

Defects in GLI3 are a cause of polydactyly preaxial type 4 (POP4) [MIM:174700]. Polydactyly preaxial type 4 (i.e., polydactyly on the radial/tibial side of the hand/foot) covers a heterogeneous group of entities. In preaxial polydactyly type IV, the thumb shows only the mildest degree of duplication, and syndactyly of various degrees affects fingers 3 and 4.

Defects in GLI3 are the cause of acrocallosal syndrome (ACS) [MIM:200990]; also abbreviated ACLS. ACS is characterized by postaxial polydactyly, hallux duplication, macrocephaly, and absence of the corpus callosum, usually with severe developmental delay.

Predicted Transcript
     1 TCTTTTTCCTCCCTAGAGGATGAAAGTCCTGGACAGACCTATCACAGAGAGAGAAGAAAC
    61 GCAATCACAATGCAGCCACAGGGTGGGCAAGGCCTCGGTAAAATCAGTGAAGAGCCTTCG
   121 ACATCTAGCGAGGAAAGGGCCTCATTAATCAAGAAGGAGATCCATGGATCTATATCTCAT
   181 CTTCCTGAGCCTTCATTACCTTACCGTGGGACAGTCTTTGCCATGGATCCCAGGAATGGT
   241 TATATGGATCCTCCTTACCATCCACCTCACCTTTTCCCAGCATTCCACCCTCCTGTACCA
   301 ATTGATGCAAGACATCACGAGGGACGTTATCATTATGAACCATCCCCCATTCCTCCGTTA
   361 CATGTGCCTTCTGCTCTATCAAGTAGTCCAACATATTCAGACTTGCCGTTCATCAGAATA
   421 TCCCCACACAGGAATCCTGTTGCAGCATCAGAGTCTCCTTTTAGCCCACCTCATCCATAT
   481 ATTAACCCTTACATGGACTATATCCGATCTTTGCACAGCAGCCCTTCTCTGTCTATGATT
   541 TCAGCAGCCCGAGGACTGAGCCCTACAGATGTGCCACATGCTGGAGTTAGTCCAGCTGAA
   601 TATTACCATCAGATGGCTCTGCTGGCAGGTCAGCGCAGCCCATATGCAGACATCATTCCT
   661 TCAGCAGCCACAGCAGGAGCTGGTGCCCTTCATATGGAGTATCTCCATGCTATGGACAGC
   721 GCCAGGTTTCCGAGTCCCAGGCTGCCAACGAGACCAAGTCGAAAGAGAACATTGTCCCTA
   781 TCGCCTCTGTCTGATCACAGCTTCGACCTTCAGACCATGATCCGGACATCTCCAAATTCC
   841 TTAGTCACAATTCTTAACAATTCCCGTAGCAGTTCTTCAGCAAGTGGCTCCTATGGCCAT
   901 TTATCTGCAAGTGCAATAAGCCCAGCTCTGAGTTTTACATATCCTCCCACACCAGTATCC
   961 CTCCAACAGATGCACCAACAAATCATCAGTCGCCAGCAAAGCTTGGGCTCAGCCTTTGGA
  1021 CACAGTCCTCCACTCATCCATCCTGCTCCAACCTTTCCTACCCAGAGGCCTATCCCTGGG
  1081 ATTCCTAGTATCTTGAATCCTGTCCAAGTGAGTTCAGGTCCATCGGAGTCTACACAGCAG
  1141 AACAAACCCACAAGTGAATCTGCAGTGAGCAGTACAGGAGACCCGATGCATAACAAACGT
  1201 TCAAAGATAAAACCTGATGACGACCTCCCCAGCCCAGGTGCAGGAAGCGTGCAGGAACCA
  1261 CCAGAAGGAATGACCTTAGTAAAAGAGGAAGGAGACAAAGATGAAAGCAAGCAGGAGCCT
  1321 GAAGTGGTCTATGAGACAAACTGCCATTGGGAAGGCTGTTCACGGGAGTTCGACACTCAG
  1381 GAACAGCTAGTGCATCATATAAACAATGATCACATACACGGGGAGAAAAAAGAGTTTGTA
  1441 TGTCGATGGCTGGATTGTTCCCGAGAGCAGAAGCCATTCAAAGCCCAGTACATGCTGGTT
  1501 GTTCACATGAGGAGGCACACAGGAGAAAAGCCACACAAATGCACTTTTGAAGGTTGTACA
  1561 AAAGCCTACTCCAGGCTGGAAAACTTGAAAACCCACTTGAGATCTCACACTGGAGAGAAA
  1621 CCATATGTCTGCGAACATGAAGGCTGCAACAAAGCATTTTCCAATGCATCTGATCGTGCC
  1681 AAGCACCAAAACAGAACTCATTCCAATGAGAAACCCTATGTCTGCAAAATACCAGGGTGC
  1741 ACAAAGCGCTACACAGATCCTAGTTCTCTTCGAAAACATGTAAAGACTGTGCACGGCCCT
  1801 GAGGCCCACGTTACCAAGAAGCAGCGTGGAGATATCCACCCACGGCACCCCCCACCTCGA
  1861 GACCAAGGCAGCCATTCTCAAAGCAGATCCCCCGGCCATCAGACTCAGGGTGCAATTGGG
  1921 GAGCAAAAAGACCTCAGCAACACTACCTCAAAGCGTGAAGAATGCCTCCAGGTCAAAGCT
  1981 GTCAAGTCAGAGAAGCCAATGGCATCTCAGCCAAGCCCTGGTGGTCAGTCTACATGCAGC
  2041 AGCGAACAGTCCCCCATCAGCAACTATTCCAACCATGGGATCGAGCTTAATCTGACCAGT
  2101 AGAGGTAGTGTAGGAGACCTCAGTGTCATAGATGAAACCCCTATCATGGACTCTACCATT
  2161 TCAACAGCAACCACAGCACTTGGCTTACAGGCCAGGAGGAATATGACAGAGACCAAATGG
  2221 ATGGAGCAAGTCAAGTTAGAAAGGCTGAAACAAATCAATGGAGTGCTTCCAAGACTGAAC
  2281 CTCATGCCACCTTCCAAAGGCCCAACCTTGCCACCTCTCATAGGAAATGGTACTCAGTCA
  2341 AACAACAGCTGTAGCCTAGGAGGAAACATGGCTATCCTAACCCACAAAAATGAACTCACA
  2401 AACACGGATATCACTGTGTTAAACATGCTGAACAGAAGGGACAGCAATACCAGCACAATC
  2461 AGCTCAGCCTACATGAGCAGCCGTAGGTCCTCTGGAATTTCACCTTGCTTCTCTAGTCGC
  2521 AGATCCAGCAGTGCTTCTCAGGGTGAGGGAAGGCTCCAGAATATCAGTGTGGCTGATTCC
  2581 TATGACCCCATTTCAACTGATGCCTCAAGGCGATCTAGCGAAGTCAGCCAGTGTGACGGC
  2641 TTACCGGGTCTTCTCAGCCTTACCCCTGCCCAACAGTATAGGCTGAAAGCAAAATATGCA
  2701 GCAGCTACTGGTGGACCTCCACCAACACCACTACCTAATATGGAGAGGATGACCTTGAAA
  2761 ACAAGAATGGCACTGTTGGGTGACTGCCGGGAATCTGGAATGTCACCACTGCCCCCCGCT
  2821 AATTCTCCTAGAAGATGTAGTGATGGTGGGACAAATGGTTACAGCAGGAGACACTTACTG
  2881 CCTCATGATGTGATGGGGAATGGTACAAGGAGAGCCAGTGATCCTGTGAGACTAGTCTCT
  2941 GAGAATCTTTCTTTCCCCAGAGTGCAGCGTTTCAACAGCCTCAATTGCTTTAACCCTCCT
  3001 GCTTTGCCTCCCTCTGCGGAAAAACGCAACTTTGTCCTTCAAAACTACACACGATCTGAT
  3061 GGTGGCTTGTTTCGCAACTTCTGTTCACCATGTCCTCCAAGCATCTCTGAAAATGTGGCT
  3121 ATGGAGGTTGCTACCATGGAGGCAGATGGCAATTTGAATGATGAAGATCTTCTGCCAGAT
  3181 GATGTGGTCCAATATCTGAATTCTCAGAATCAAATGTACAACCAAATGCCAAATGGTGGA
  3241 TTAGATAACAACAAAGGGCATAACAGTTCAGTAATAGGGAACAACAACAGCTTTGAGCAA
  3301 ACCCCGCCAGAAGCCAGTAAAAATGATCTGCCAATTCAGTGGAATGAAGTAAGCTCAGGA
  3361 AGTTCTGAATTGTCTCCATCAAGATTAAAATGTGGGCAGCGATCTCTGATCCAGCAAAAT
  3421 CAAACCCCTGGGTTCTATAATAACCTAGTTGTCCAGTCGCAGAACAATGGGCTGGAAAGA
  3481 AATGTTATGACTCAACAAAATGGCTACCAGCATCTACTAGACAGCAATGGCTCTTGCAAT
  3541 TTACAACATAACATGGCCATGAATAACGGTGACACCAACCGTTCTTACCACTTTCAGTCT
  3601 AGTAAGGTACAACTATATAGTGAAAGTACTGGCAGACAACCAATGGACCATACCTCTGAA
  3661 ATGGTGGTTCAAGGGCAAAAGGTGAGAAACAATTATATGTTAGCTAATGGGAACCAGCAC
  3721 AATTTTGGCTGCCCTGTGGTATCAGATGAGCCATCTGCCAGTGTAATGAATAAGATGCAG
  3781 AGCAGAAACATGGTCCTCCAAGAGTACTTTCCTCATCAATCAGCAGATGAAGTCAGTCAC
  3841 TACCATGAAGTAGACCATTCCAGTAAAACAATGCTAGAGCAAGTCACTGCTCCCTCACAA
  3901 CGCAGCCTTCACCAAGGGTCACAGAGTTATCTGCCACTTTCCGAAAACGTTGGGATCCAA
  3961 CCTTCAGGTTTGATGATAGGCAGAGGTTACCAGCCCTGTGTGAGCTATTGTGGTGGCAGA
  4021 ATGCAGAACATGGTGAGGAATAATTCCGTGCAACAGGGACATGGTAGGGATGCCAGCCAG
  4081 GCACACAAGGTCAATGGCATCAAAGTAGAGTCTCAAAGTCAGTCGCAACAATTCTGTTCT
  4141 AATATGCAGAATTACTCTGGTCAGTTGTATGACCAAACCACAGGGTTTATCCAGCAAGCT
  4201 TTGAAAACAGGGGCTTTCCCCCTTTCAGAAGCCAACTGCCTCCTGCAGGGGACTAGTGAT
  4261 GCAAATTCATCAGAGCTTCTCTCTCCAGGGGCCAACCAGGTGACAAGCACTGTTGACAGC
  4321 ATTGACACCAACAGCCTTGAAGGCGTGCAGATCGATTTTGATGCTATCATAGATGATGGT
  4381 GATCATGCCAGCTTAATTTCAGGAGCCCTAAGTCCCAGCATCACCCAGAATTTCTCCCAC
  4441 AATTCCTCCCGTCTCACCACTCCCCGAGCGTCTCTTACATTTCCA

Predicted Protein Product
SFSSLEDESPGQTYHRERRNAITMQPQGGQGLGKISEEPSTSSEERASLIKKEIHGSISH
LPEPSLPYRGTVFAMDPRNGYMDPPYHPPHLFPAFHPPVPIDARHHEGRYHYEPSPIPPL
HVPSALSSSPTYSDLPFIRISPHRNPVAASESPFSPPHPYINPYMDYIRSLHSSPSLSMI
SAARGLSPTDVPHAGVSPAEYYHQMALLAGQRSPYADIIPSAATAGAGALHMEYLHAMDS
ARFPSPRLPTRPSRKRTLSLSPLSDHSFDLQTMIRTSPNSLVTILNNSRSSSSASGSYGH
LSASAISPALSFTYPPTPVSLQQMHQQIISRQQSLGSAFGHSPPLIHPAPTFPTQRPIPG
IPSILNPVQVSSGPSESTQQNKPTSESAVSSTGDPMHNKRSKIKPDDDLPSPGAGSVQEP
PEGMTLVKEEGDKDESKQEPEVVYETNCHWEGCSREFDTQEQLVHHINNDHIHGEKKEFV
CRWLDCSREQKPFKAQYMLVVHMRRHTGEKPHKCTFEGCTKAYSRLENLKTHLRSHTGEK
PYVCEHEGCNKAFSNASDRAKHQNRTHSNEKPYVCKIPGCTKRYTDPSSLRKHVKTVHGP
EAHVTKKQRGDIHPRHPPPRDQGSHSQSRSPGHQTQGAIGEQKDLSNTTSKREECLQVKA
VKSEKPMASQPSPGGQSTCSSEQSPISNYSNHGIELNLTSRGSVGDLSVIDETPIMDSTI
STATTALGLQARRNMTETKWMEQVKLERLKQINGVLPRLNLMPPSKGPTLPPLIGNGTQS
NNSCSLGGNMAILTHKNELTNTDITVLNMLNRRDSNTSTISSAYMSSRRSSGISPCFSSR
RSSSASQGEGRLQNISVADSYDPISTDASRRSSEVSQCDGLPGLLSLTPAQQYRLKAKYA
AATGGPPPTPLPNMERMTLKTRMALLGDCRESGMSPLPPANSPRRCSDGGTNGYSRRHLL
PHDVMGNGTRRASDPVRLVSENLSFPRVQRFNSLNCFNPPALPPSAEKRNFVLQNYTRSD
GGLFRNFCSPCPPSISENVAMEVATMEADGNLNDEDLLPDDVVQYLNSQNQMYNQMPNGG
LDNNKGHNSSVIGNNNSFEQTPPEASKNDLPIQWNEVSSGSSELSPSRLKCGQRSLIQQN
QTPGFYNNLVVQSQNNGLERNVMTQQNGYQHLLDSNGSCNLQHNMAMNNGDTNRSYHFQS
SKVQLYSESTGRQPMDHTSEMVVQGQKVRNNYMLANGNQHNFGCPVVSDEPSASVMNKMQ
SRNMVLQEYFPHQSADEVSHYHEVDHSSKTMLEQVTAPSQRSLHQGSQSYLPLSENVGIQ
PSGLMIGRGYQPCVSYCGGRMQNMVRNNSVQQGHGRDASQAHKVNGIKVESQSQSQQFCS
NMQNYSGQLYDQTTGFIQQALKTGAFPLSEANCLLQGTSDANSSELLSPGANQVTSTVDS
IDTNSLEGVQIDFDAIIDDGDHASLISGALSPSITQNFSHNSSRLTTPRASLTFP
Protein Alignment to Mouse
sp|Q61602|GLI3_MOUSE Transcriptional activator GLI3 OS=Mus musculus GN=Gli3
            PE=1 SV=2
      MGI:95729 Gli3 GLI-Kruppel family member GLI3 (Chr 13)
        Length = 1583

 Score = 4408 (1556.8 bits), Expect = 0., Sum P(2) = 0.
 Identities = 860/1207 (71%), Positives = 930/1207 (77%)

Query:     1 SFSSLEDESPGQTYHRERRNAITMQPQGGQGLGKISEEPSTSSEERASLIKKEIHGSISH 60
             S +S EDESPGQ YHRERRNAITMQPQ  QGL KISEEPSTSS+ERASLIKKEIHGS+ H
Sbjct:    37 STTSNEDESPGQIYHRERRNAITMQPQSVQGLNKISEEPSTSSDERASLIKKEIHGSLPH 96

Query:    61 LPEPSLPYRGTVFAMDPRNGYMDXXXXXXXXXXXXXXXXXIDARHHEGRYHYEPSPIPPL 120
             L EPSLPYRGTVFAMDPRNGYM+                 IDARHHEGRYHY+PSPIPPL
Sbjct:    97 LAEPSLPYRGTVFAMDPRNGYMEPHYHPPHLFPAFHPPVPIDARHHEGRYHYDPSPIPPL 156

Query:   121 HVPSALSSSPTYSDLPFIRISPHRNPVAASESPFSPPHPYINPYMDYXXXXXXXXXXXXX 180
             HVPSALSSSPTY DLPFIRISPHRNP AASESPFSPPHPYINPYMDY             
Sbjct:   157 HVPSALSSSPTYPDLPFIRISPHRNPTAASESPFSPPHPYINPYMDYIRSLHSSPSLSMI 216

Query:   181 XXXXGLSPTDVPHAGVSPAEYYHQMALLAGQRSPYADIIPSAATAGAGALHMEYLHAMDS 240
                 GLSPTD PHAGVSPAEYYHQMALL GQRSPYADI+PSAATAGAGA+HMEYLHAMDS
Sbjct:   217 SAARGLSPTDAPHAGVSPAEYYHQMALLTGQRSPYADILPSAATAGAGAIHMEYLHAMDS 276

Query:   241 ARFPSPRLPTRPSRKRTLSLSPLSDHSFDLQTMIRTSPNSLVTILNNXXXXXXXXXXXXX 300
              RFPSPRL  RPSRKRTLS+SPLSDHSFDLQTMIRTSPNSLVTILNN             
Sbjct:   277 TRFPSPRLSARPSRKRTLSISPLSDHSFDLQTMIRTSPNSLVTILNNSRSSSSASGSYGH 336

Query:   301 XXXXXISPALSFTYPPTPVSLXXXXXXXXXXXXXLGSAFGHSPPLIHPAPTFPTQRPIPG 360
                  ISPALSFTYP  PVSL             LGSAFGHSPPLIHPAPTFPTQRPIPG
Sbjct:   337 LSASAISPALSFTYPSAPVSLHMHQQILSRQQS-LGSAFGHSPPLIHPAPTFPTQRPIPG 395

Query:   361 IPSILNPVQVSSGPSESTQQNKPTSESAVSSTGDPMHNKRSKIKPDDDLPSPGAGSVQEP 420
             IP++LNPVQVSSGPSES+Q +KPTSESAVSSTGDPMHNKRSKIKPD+DLPSPG+   QE 
Sbjct:   396 IPTVLNPVQVSSGPSESSQ-SKPTSESAVSSTGDPMHNKRSKIKPDEDLPSPGSRGQQEQ 454

Query:   421 PEGMTLVKEEGDKDESKQEPEVVYETNCHWEGCSREFDTQEQLVHHINNDHIHGEKKEFV 480
             PEG TLVKEE DKDESKQEPEV+YETNCHWEGC+REFDTQ+QLVHHINNDHIHGEKKEFV
Sbjct:   455 PEGTTLVKEEADKDESKQEPEVIYETNCHWEGCTREFDTQDQLVHHINNDHIHGEKKEFV 514

Query:   481 CRWLDCSREQKPFKAQYMLVVHMRRHTGEKPHKCTFEGCTKAYSRLENLKTHLRSHTGEK 540
             CRWLDCSREQKPFKAQYMLVVHMRRHTGEKPHKCTFEGCTKAYSRLENLKTHLRSHTGEK
Sbjct:   515 CRWLDCSREQKPFKAQYMLVVHMRRHTGEKPHKCTFEGCTKAYSRLENLKTHLRSHTGEK 574

Query:   541 PYVCEHEGCNKAFSNASDRAKHQNRTHSNEKPYVCKIPGCTKRYTDPSSLRKHVKTVHGP 600
             PYVCEHEGCNKAFSNASDRAKHQNRTHSNEKPYVCKIPGCTKRYTDPSSLRKHVKTVHGP
Sbjct:   575 PYVCEHEGCNKAFSNASDRAKHQNRTHSNEKPYVCKIPGCTKRYTDPSSLRKHVKTVHGP 634

Query:   601 EAHVTKKQRGDIHPRHPPPRDQGSHSQSRSPGHQTQGAIGEQKDLSNTTSKREECLQVKA 660
             EAHVTKKQRGD+HPR PPPRD GSHSQSRSPG  TQGA GEQK+LSNTTSKREECLQVK 
Sbjct:   635 EAHVTKKQRGDMHPRPPPPRDSGSHSQSRSPGRPTQGAFGEQKELSNTTSKREECLQVKT 694

Query:   661 VKSEKPMASQPSPGGQSTCSSEQSPISNYSNHGIELNLTSRGSVGDLSVIDETPIMDSTI 720
             VK+EKPM SQPSPGGQS+CSS+QSPISNYSN G+EL LT  GSV DLS IDETPIMDSTI
Sbjct:   695 VKAEKPMTSQPSPGGQSSCSSQQSPISNYSNSGLELPLTDGGSVADLSAIDETPIMDSTI 754

Query:   721 STATTALGLQARRNMTETKWMEQVKLERLKQINGVLPRLNLMPPSKGPTLPPLIGNGTQS 780
             STATTAL LQARRN   TKWME +KLERLKQ+NG+ PRLN + PSK P + PLIGNGTQS
Sbjct:   755 STATTALALQARRNPAGTKWMEHIKLERLKQVNGMFPRLNPILPSKAPAVSPLIGNGTQS 814

Query:   781 NNSCSLGGNMAILTHKNELTNTDITVLNMLNRRDXXXXXXXXXXXXXXXXXXXXXXXXXX 840
             NN+ S GG   +L  +++L+  D TVLN LNRRD                          
Sbjct:   815 NNNYSSGGPGTLLPSRSDLSGVDFTVLNTLNRRDSNTSTISSAYLSSRRSSGISPCFSSR 874

Query:   841 XXXXXXQGEGRLQNISVADSYDPISTDASRRSSEVSQCDGLPGLLSLTPAQQYRLKAKYX 900
                   Q EGR QN+SVADSYDPISTDASRRSSE SQ DGLP LLSLTP QQYRLKAKY 
Sbjct:   875 RSSEASQAEGRPQNVSVADSYDPISTDASRRSSEASQGDGLPSLLSLTPVQQYRLKAKYA 934

Query:   901 XXXXXXXXXXLPNMERMTLKTRMALLGDCRESGMSPLPPANSPRRCSDGGTNGYSRRHLL 960
                       LP+MER++LKT+MALLG+ R+SG++ LPP + PRRCSDGG + Y  RHL+
Sbjct:   935 AATGGPPPTPLPHMERLSLKTKMALLGEGRDSGVT-LPPVHPPRRCSDGGGHTYRGRHLM 993

Query:   961 PHDVMGNGTRRASDPVRLVSENLSFPRVQRFNSLNCFNPPALPPSAEKRNFVLQNYTRSD 1020
             PHD + N  RRASDPVR VSEN+S  RVQRF+SLN FNPP LPPS EKR+ VLQNYTR +
Sbjct:   994 PHDALANSVRRASDPVRTVSENMSLARVQRFSSLNSFNPPNLPPSVEKRSLVLQNYTRQE 1053

Query:  1021 GGLFRNF-CSPCPPSISENVAMEVATMEADGNLNDEDLLPDDVVQYLNSQNQM-YNQMPN 1078
                 R F  SPCPPSI+ENVA+E  TM+AD NLNDEDLLPDDVVQYLNSQNQ  Y Q   
Sbjct:  1054 SSQPRYFQASPCPPSITENVALEALTMDADANLNDEDLLPDDVVQYLNSQNQTGYGQQLQ 1113

Query:  1079 GGL--DNNKGHN----------SSVIGNNN-SFEQTPPEASKNDLPIQWNEVXXXXXXXX 1125
              G+  D+   H            S +G    + EQ   E SK DLPIQWNEV        
Sbjct:  1114 SGISEDSKVAHEPEDLDLAGLPDSHVGQEYPALEQPCSEGSKTDLPIQWNEVSSGTSDLS 1173

Query:  1126 XXRLKCGQ-RSLIQQNQTPGFYNNLVVQSQNNGLERNVMTQQNGYQHLLDSNGSCNLQHN 1184
               +LKCGQ R   QQ +  G YNN+VV   N  L +       GYQ L +++ + N   +
Sbjct:  1174 SSKLKCGQQRPSAQQPRGFGLYNNMVVHPHN--LWKVGTGPAGGYQTLGENSSTYNGPEH 1231

Query:  1185 MAMNNGD 1191
              A+++GD
Sbjct:  1232 FAIHSGD 1238

 Score = 899 (321.5 bits), Expect = 0., Sum P(2) = 0.
 Identities = 199/410 (48%), Positives = 254/410 (61%)

Query:  1097 SFEQTPPEASKNDLPIQWNEVXXXXXXXXXXRLKCGQ-RSLIQQNQTPGFYNNLVVQSQN 1155
             + EQ   E SK DLPIQWNEV          +LKCGQ R   QQ +  G YNN+VV   N
Sbjct:  1145 ALEQPCSEGSKTDLPIQWNEVSSGTSDLSSSKLKCGQQRPSAQQPRGFGLYNNMVVHPHN 1204

Query:  1156 NGLERNVMTQQNGYQHLLDSNGSCNLQHNMAMNNGD---TN-RSYHFQSSKVQLYSESTG 1211
               L +       GYQ L +++ + N   + A+++GD   TN  ++H Q  K Q Y     
Sbjct:  1205 --LWKVGTGPAGGYQTLGENSSTYNGPEHFAIHSGDGLGTNGNTFHEQPFKTQQYGSQLN 1262

Query:  1212 RQPM-----DHTSEMVVQGQKVRNNYMLANGNQHNFGCPVVSDEPSASVMNKMQSRNMVL 1266
             RQP+     DH     +QG K++ N +  NG   +F   V  +E + + +N MQ+++ + 
Sbjct:  1263 RQPLTSSALDHACGTGIQGSKLKGNSLQENGGLLDFSLSVAPNELAGNTVNGMQTQDQMG 1322

Query:  1267 QEYFPHQSADEVSHYHEVDHSSKTMLEQVTAPSQRSLHQGSQSYLPLSENVGIQPSGLMI 1326
             Q Y  HQ       +       + +L QV A S  +++QG++S LP +++   QPS +  
Sbjct:  1323 QGYIAHQLLSGSMQHQGPSRPGQQVLGQVGATSHINIYQGTESCLPGTQDNSSQPSSMAA 1382

Query:  1327 GRGYQPCVSYCGGRMQNMVRNN-SVQQGHGRDASQAHKVNGIKVESQSQSQQFCSNMQNY 1385
              RGYQPC SY G R Q M R N ++QQG   D SQ+ +VN IK+E+Q QSQQ CS +QNY
Sbjct:  1383 IRGYQPCASYGGNRRQAMPRGNLTLQQGQLSDMSQSSRVNSIKMEAQGQSQQLCSTVQNY 1442

Query:  1386 SGQLYDQTTGFIQQALKTGAFPLSEANCLLQGTSDANSSELLSPGANQVTSTVDSIDTNS 1445
             SGQ YDQT GF QQ  K G+F LS+ANCLLQG    NS ELLSPGANQVTSTVDS +++ 
Sbjct:  1443 SGQFYDQTMGFSQQDRKAGSFSLSDANCLLQGNGTENS-ELLSPGANQVTSTVDSFESHD 1501

Query:  1446 LEGVQIDFDAIIDDGDHASLISGALSPSITQNFSHNSSRLTTPRASLTFP 1495
             LEGVQIDFDAIIDDGDH SL+SGALSPSI QN SH+SSRLTTPRASL FP
Sbjct:  1502 LEGVQIDFDAIIDDGDHTSLMSGALSPSIIQNLSHSSSRLTTPRASLPFP 1551