AAC50215.1

LOCUS       AAC50215.1              1629 aa    PRT              HUM 30-SEP-1995
DEFINITION  Homo sapiens Pro-a2(XI) protein.
ACCESSION   U32169-3
PROTEIN_ID  AAC50215.1
SOURCE      Homo sapiens (human)
  ORGANISM  Homo sapiens
            Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
            Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini;
            Catarrhini; Hominidae; Homo.
REFERENCE   1  (bases 1 to 28789)
  AUTHORS   Vuristo,M.M., Pihlajamaa,T., Vandenberg,P., Prockop,D.J. and
            Ala-Kokko,L.
  TITLE     The human COL11A2 gene structure indicates that the gene has not
            evolved with the genes for the major fibrillar collagens
  JOURNAL   J. Biol. Chem. 270 (39), 22873-22881 (1995)
   PUBMED   7559422
REFERENCE   2  (sites)
  AUTHORS   Zhidkova,N.I., Brewton,R.G. and Mayne,R.
  TITLE     Molecular cloning of PARP (proline/arginine-rich protein) from
            human cartilage and subsequent demonstration that PARP is a
            fragment of the NH2-terminal domain of the collagen alpha 2(XI)
            chain
  JOURNAL   FEBS Lett. 326 (1-3), 25-28 (1993)
   PUBMED   8325374
REFERENCE   3  (sites)
  AUTHORS   Kimura,T., Cheah,K.S., Chan,S.D., Lui,V.C., Mattei,M.G., van der
            Rest,M., Ono,K., Solomon,E., Ninomiya,Y. and Olsen,B.R.
  TITLE     The human alpha 2(XI) collagen (COL11A2) chain. Molecular cloning
            of cDNA and genomic DNA reveals characteristics of a fibrillar
            collagen with differences in genomic organization
  JOURNAL   J. Biol. Chem. 264 (23), 13910-13916 (1989)
   PUBMED   2760050
REFERENCE   4  (bases 1 to 28789)
  AUTHORS   Tsumaki,N. and Kimura,T.
  TITLE     Differential expression of an acidic domain in the amino-terminal
            propeptide of mouse pro-alpha 2(XI) collagen by complex alternative
            splicing
  JOURNAL   J. Biol. Chem. 270 (5), 2372-2378 (1995)
   PUBMED   7836472
REFERENCE   5  (bases 1 to 28789)
  AUTHORS   Zhidkova,N.I., Justice,S.K. and Mayne,R.
  TITLE     Alternative mRNA processing occurs in the variable region of the
            pro-alpha 1(XI) and pro-alpha 2(XI) collagen chains
  JOURNAL   J. Biol. Chem. 270 (16), 9486-9493 (1995)
   PUBMED   7721876
REFERENCE   6  (bases 1 to 28789)
  AUTHORS   Vuoristo,M.M.
  TITLE     Direct Submission
  JOURNAL   Submitted (24-JUL-1995) Mirka M. Vuoristo, Dept. of Biochemistry
            and Molecular Biology, Thomas Jefferson University, 233 South 10th
            Street, Philadelphia, PA 19107, USA
FEATURES             Qualifiers
     source          /organism="Homo sapiens"
                     /mol_type="genomic DNA"
                     /db_xref="taxon:9606"
                     /chromosome="6"
                     /map="6p212"
     protein         /gene="COL11A2"
                     /standard_name="pro-a2 chain of collagen type XI"
                     /experiment="experimental evidence, no additional details
                     recorded"
                     /note="lacks alternative exons 6, 7 and 8"
                     /citation=[5]
     intron_pos      28:1 (1/62)
     intron_pos      78:1 (2/62)
     intron_pos      148:2 (3/62)
     intron_pos      203:0 (4/62)
     intron_pos      267:0 (5/62)
     intron_pos      287:0 (6/62)
     intron_pos      301:0 (7/62)
     intron_pos      322:0 (8/62)
     intron_pos      347:0 (9/62)
     intron_pos      376:0 (10/62)
     intron_pos      395:0 (11/62)
     intron_pos      413:0 (12/62)
     intron_pos      431:0 (13/62)
     intron_pos      449:0 (14/62)
     intron_pos      467:0 (15/62)
     intron_pos      485:0 (16/62)
     intron_pos      500:0 (17/62)
     intron_pos      518:0 (18/62)
     intron_pos      533:0 (19/62)
     intron_pos      551:0 (20/62)
     intron_pos      566:0 (21/62)
     intron_pos      584:0 (22/62)
     intron_pos      599:0 (23/62)
     intron_pos      617:0 (24/62)
     intron_pos      632:0 (25/62)
     intron_pos      650:0 (26/62)
     intron_pos      686:0 (27/62)
     intron_pos      704:0 (28/62)
     intron_pos      722:0 (29/62)
     intron_pos      737:0 (30/62)
     intron_pos      755:0 (31/62)
     intron_pos      770:0 (32/62)
     intron_pos      788:0 (33/62)
     intron_pos      806:0 (34/62)
     intron_pos      824:0 (35/62)
     intron_pos      860:0 (36/62)
     intron_pos      890:0 (37/62)
     intron_pos      908:0 (38/62)
     intron_pos      944:0 (39/62)
     intron_pos      980:0 (40/62)
     intron_pos      998:0 (41/62)
     intron_pos      1016:0 (42/62)
     intron_pos      1052:0 (43/62)
     intron_pos      1070:0 (44/62)
     intron_pos      1088:0 (45/62)
     intron_pos      1106:0 (46/62)
     intron_pos      1124:0 (47/62)
     intron_pos      1160:0 (48/62)
     intron_pos      1178:0 (49/62)
     intron_pos      1196:0 (50/62)
     intron_pos      1214:0 (51/62)
     intron_pos      1232:0 (52/62)
     intron_pos      1268:0 (53/62)
     intron_pos      1286:0 (54/62)
     intron_pos      1304:0 (55/62)
     intron_pos      1340:0 (56/62)
     intron_pos      1358:0 (57/62)
     intron_pos      1370:0 (58/62)
     intron_pos      1388:0 (59/62)
     intron_pos      1477:1 (60/62)
     intron_pos      1515:0 (61/62)
     intron_pos      1584:0 (62/62)
BEGIN
        1 MERCSXGHRL LLLLPLVLGL SAAPGWAGAP PVDVLRALRF PSLPDGVRRA KGICPADVAY
       61 RVARPAQLSA PTRQLFPGGF PKDFSLLTVV RTRPGLQAPL LTLYSAQGVR QLGLELGRPV
      121 RFLYEDQTGR PQPPSQPVFR GLSLADGKWH RVAVAVKGQS VTLIVDCKKR VTRPLPRSAR
      181 PVLDTHGVII FGARILDEEV FEGDVQELAI VPGVQAAYES CEQKELECEG GQRERPQNQQ
      241 PHRAQRSPQQ QPSRLHRPQN QEPQSQAAHG PRGLKGEKGE PAVLEPGMLV EGPPGPEGPA
      301 GLIGPPGIQG NPGPVGDPGE RGPPGRAGLP GSDGAPGPPG TSLMLPFRFG SGGGDKGPVV
      361 AAQEAQAQAI LQQARLALRG PPGPMGYTGR PGPLGQPGSP GLKGESGDLG PQGPRGPQGL
      421 TGSLGKAGRR GRAGADGARG MPGDPGVKGD RGFDGLPGLP GEKGHRGDTG AQGLPGPPGE
      481 DGERGDDGEI GPRGLPGESG PRGLLGPKGP PGIPGPPGVR GMDGPQGPKG SLGPQGEPGP
      541 PGQQGTPGTQ GLPGPQGAIG PHGEKGPQGK PGLPGMPGSD GPPGHPGKEG PPGTKGNQGP
      601 SGPQGPLGYP GPRGVKGVDG IRGLKGHKGE KGEDGFPGFK GDIGVKGDRG EVGVPGSRGE
      661 DGPEGPKGRT GPTGDPGPPG LMGEKGKLGV PGLPGYPGRQ GPKGSLGFPG FPGASGEKGA
      721 RGLSGKSGPR GERGPTGPRG QRGPRGATGK SGAKGTSGGD GPHGPPGERG LPGPQGPNGF
      781 PGPKGPLGPP GKDGLPGHPG QRGEVGFQGK TGPPGPPGVV GPQGAAGETG PMGERGHPGP
      841 PGPPGEQGLP GTAGKEGTKG DPGPPGAPGK DGPAGLRGFP GERGLPGTAG GPGLKGNEGP
      901 SGPPGPAGSP GERGAAGSGG PIGRQGRPGP QGPPGAAGEK GVPGEKGPIG PTGRDGVQGP
      961 VGLPGPAGPP GVAGEDGDKG EVGDPGQKGT KGNKGEHGPP GPPGPIGPVG QPGAAGADGE
     1021 PGARGPQGHF GAKGDEGTRG FNGPPGPIGL QGLPGPSGEK GETGDVGPMG PPGPPGPRGP
     1081 AGPNGADGPQ GPPGGVGNLG PPGEKGEPGE SGSPGIQGEP GVKGPRGERG EKGESGQPGE
     1141 PGPPGAKGPQ GDDGPKGNPG PVGFPGDPGP PGEGGPRGQD GAKGDRGEDG EPGQPGSPGP
     1201 TGENGPPGPL GKRGPAGSPG SEGRQGGKGA KGDPGAIGAP GKTGPVGPAG PAGKPGPDGL
     1261 RGLPGSVGQQ GRPGATGQAG PPGPVGPPGL PGLRGDAGAK GEKGHPGLIG LIGPPGEQGE
     1321 KGDRGLPGPQ GSPGQKGEMG IPGASGPIGP GGPPGLPGPA GPKGAKGATG PGGPKGEKGV
     1381 QGPPGHPGPP GEVIQPLPIQ MPKKTRRSVD GSRLMQEDEA IPTGGAPGSP GGLEEIFGSL
     1441 DSLREEIEQM RRPTGTQDSP ARTCQDLKLC HPELPDGEYW VDPNQGCARD AFRVFCNFTA
     1501 GGETCVTPRD DVTQFSYVDS EGSPVGVVQL TFLRLLSVSA HQDVSYPCSG AARDGPLRLR
     1561 GANEDELSPE TSPYVKEFRD GCQTQQGRTV LEVRTPVLEQ LPVLDASFSD LGAPPRRGGV
     1621 LLGPVCFMG
//