Add article(s) associated with Fibrinogen alpha family

Human plasma N-glycoproteome analysis by immunoaffinity subtraction, hydrazide chemistry, and mass spectrometry.
Liu T., Qian W.-J., Gritsenko M.A. et al
2005, J. Proteome Res. (4) 2070-2080
Cell-autonomous and signal-dependent expression of liver and intestine marker genes in pluripotent precursor cells from Xenopus embryos.
Chen Y., Jurgens K., Hollemann T. et al
2003, Mech. Dev. (120) 277-288
Generation and initial analysis of more than 15,000 full-length human and mouse cDNA sequences.
Strausberg R.L., Feingold E.A., Grouse L.H. et al
2002, Proc. Natl. Acad. Sci. U.S.A. (99) 16899-16903
The crystal structure of fragment double-D from cross-linked lamprey fibrin reveals isopeptide linkages across an unexpected D-D interface.
Yang Z., Pandi L., Doolittle R.F. et al
2002, Biochemistry (41) 15610-15617
Crystal structure of fragment D from lamprey fibrinogen complexed with the peptide Gly-His-Arg-Pro-amide.
Yang Z., Spraggon G., Pandi L. et al
2002, Biochemistry (41) 10218-10224
Crystal structure of native chicken fibrinogen at 2.7 A resolution.
Yang Z., Kollman J.M., Pandi L. et al
2001, Biochemistry (40) 12515-12523
The crystal structure of modified bovine fibrinogen.
Brown J.H., Volkmann N., Jun G. et al
2000, Proc. Natl. Acad. Sci. U.S.A. (97) 85-90
Crystal structure of native chicken fibrinogen at 5.5-A resolution.
Yang Z., Mochalkin I., Veerapandian L. et al
2000, Proc. Natl. Acad. Sci. U.S.A. (97) 3907-3912
Characterization of single-nucleotide polymorphisms in coding regions of human genes.
Cargill M., Altshuler D., Ireland J. et al
1999, Nat. Genet. (22) 231-238
Conformational changes in fragments D and double-D from human fibrin(ogen) upon binding the peptide ligand Gly-His-Arg-Pro-amide.
Everse S.J., Spraggon G., Veerapandian L. et al
1999, Biochemistry (38) 2941-2946
Crystal structure of fragment double-D from human fibrin with two different bound ligands.
Everse S.J., Spraggon G., Veerapandian L. et al
1998, Biochemistry (37) 8637-8642
Crystal structure of a recombinant alphaEC domain from human fibrinogen-420.
Spraggon G., Applegate D., Everse S.J. et al
1998, Proc. Natl. Acad. Sci. U.S.A. (95) 9099-9104
Crystal structures of fragment D from human fibrinogen and its crosslinked counterpart from fibrin.
Spraggon G., Everse S.J., Doolittle R.F. et al
1997, Nature (389) 455-462
Aberrant hepatic processing causes removal of activation peptide and primary polymerisation site from fibrinogen Canterbury (A-alpha 20 Val-to-Asp).
Brennan S.O., Hammonds B., George P.M. et al
1995, J. Clin. Invest. (96) 2854-2858
Hereditary renal amyloidosis associated with a mutant fibrinogen alpha-chain.
Benson M.D., Liepnieks J., Uemichi T. et al
1993, Nat. Genet. (3) 252-255
Molecular basis for fibrinogen Dusart (A alpha 554 Arg-->Cys) and its association with abnormal fibrin polymerization and thrombophilia.
Koopman J., Haverkate F., Grimbergen J. et al
1993, J. Clin. Invest. (91) 1637-1643
Fibrinogen Osaka IV: a congenital dysfibrinogenemia found in a patient originally reported in relation to surgery, now defined to have an A alpha arginine-16 to histidine substitution.
Yamazumi K., Terukina S., Matsuda M. et al
1993, Surg. Today (23) 45-50
Carboxy-terminal-extended variant of the human fibrinogen alpha subunit: a novel exon conferring marked homology to beta and gamma subunits.
Fu Y., Weissbach L., Plant P.W. et al
1992, Biochemistry (31) 11968-11972
Fibrinogen Lima: a homozygous dysfibrinogen with an A alpha-arginine- 141 to serine substitution associated with extra N-glycosylation at A alpha-asparagine-139. Impaired fibrin gel formation but normal fibrin- facilitated plasminogen activation catalyzed by tissue-type plasminogen activator.
Maekawa H., Yamazumi K., Muramatsu S. et al
1992, J. Clin. Invest. (90) 67-76
The structure of residues 7-16 of the A alpha-chain of human fibrinogen bound to bovine thrombin at 2.3-A resolution.
Martin P.D., Robertson W., Turk D. et al
1992, J. Biol. Chem. (267) 7911-7920
cDNA sequence of a second fibrinogen alpha chain in lamprey: an archetypal version alignable with full-length beta and gamma chains.
Pan Y., Doolittle R.F.
1992, Proc. Natl. Acad. Sci. U.S.A. (89) 2066-2070
An A alpha Ser-434 to N-glycosylated Asn substitution in a dysfibrinogen, fibrinogen Caracas II, characterized by impaired fibrin gel formation.
Maekawa H., Yamazumi K., Muramatsu S. et al
1991, J. Biol. Chem. (266) 11575-11581
Fibrinogen Kyoto II, a new congenitally abnormal molecule, characterized by the replacement of A alpha proline-18 by leucine.
Yoshida N., Okuma M., Hirata H. et al
1991, Blood (78) 149-153
Nucleotide sequences of the three genes coding for human fibrinogen.
Chung D.W., Harris J.E., Davie E.W. et al
1990, Adv. Exp. Med. Biol. (281) 39-48
Bipartite mRNA for chicken alpha-fibrinogen potentially encodes an amino acid sequence homologous to beta- and gamma-fibrinogens.
Weissbach L., Grieninger G.
1990, Proc. Natl. Acad. Sci. U.S.A. (87) 5198-5202
Complete sequence of the lamprey fibrinogen alpha chain.
Wang Y.Z., Patterson J., Gray J.E. et al
1989, Biochemistry (28) 9801-9806
Molecular cloning of mRNA sequences transiently induced during rat liver regeneration.
Sobczak J., Lotti A.-M., Taroux P. et al
1987, Exp. Cell Res. (169) 47-56
Cross-linking site in fibrinogen for alpha 2-plasmin inhibitor.
Kimura S., Aoki N.
1986, J. Biol. Chem. (261) 15591-15595
Evolution and structure of the fibrinogen genes. Random insertion of introns or selective loss?
Crabtree G.R., Comeau C.M., Fowlkes D.M. et al
1985, J. Mol. Biol. (185) 1-19
Fibrinogen and fibrin.
Doolittle R.F.
1984, Annu. Rev. Biochem. (53) 195-229
Cloning of fibrinogen genes and their cDNA.
Chung D.W., Rixon M.W., Que B.G. et al
1983, Ann. N. Y. Acad. Sci. (408) 449-456
Isolation and characterisation of cDNA clones for the A alpha- and gamma-chains of human fibrinogen.
Imam A.M.A., Eaton M.A.W., Williamson R. et al
1983, Nucleic Acids Res. (11) 7427-7434
Phosphorylation of fibrinogen by casein kinase 1.
Itarte E., Plana M., Guasch M.D. et al
1983, Biochem. Biophys. Res. Commun. (117) 631-636
Partial mRNA sequences for human A alpha, B beta, and gamma fibrinogen chains: evolutionary and functional implications.
Kant J.A., Lord S.T., Crabtree G.R. et al
1983, Proc. Natl. Acad. Sci. U.S.A. (80) 3953-3957
Characterization of a complementary deoxyribonucleic acid coding for the alpha chain of human fibrinogen.
Rixon M.W., Chan W.-Y., Davie E.W. et al
1983, Biochemistry (22) 3237-3244
Amino acid sequence studies on the alpha chain of human fibrinogen. Exact location of cross-linking acceptor sites.
Cottrell B.A., Strong D.D., Watt K.W.K. et al
1979, Biochemistry (18) 5405-5410
Amino acid sequences of portions of the alpha and beta chains of bovine fibrinogen.
Martinelli R.A., Inglis A.S., Rubira M.R. et al
1979, Arch. Biochem. Biophys. (192) 27-32
Amino acid sequence studies on the alpha chain of human fibrinogen. Overlapping sequences providing the complete sequence.
Watt K.W.K., Cottrell B.A., Strong D.D. et al
1979, Biochemistry (18) 5410-5416
Localization of the alpha-chain cross-link acceptor sites of human fibrin.
Fretto L.J., Ferguson E.W., Steinman H.M. et al
1978, J. Biol. Chem. (253) 2184-2195
Amino acid sequence of chicken fibrinopeptide A.
Takagi T., Finlayson J.S., Iwanaga S. et al
1978, Biochim. Biophys. Acta (534) 161-164
Disulfide-linked cyanogen bromide peptides of bovine fibrinogen. II. Isolation and sequence analysis of the chain constituents from the amino terminal region.
Timpl R., Fietzek P.P., Wachter E. et al
1977, Biochim. Biophys. Acta (490) 420-429
Disulfide bridges in NH2-terminal part of human fibrinogen.
Blombaeck B., Hessel B., Hogg D. et al
1976, Thromb. Res. (8) 639-658
Amino acid sequences of lamprey fibrinopeptides A and B and characterizations of the junctions split by lamprey and mammalian thrombins.
Cottrell B.A., Doolittle R.F.
1976, Biochim. Biophys. Acta (453) 426-438
Studies on fibrinopeptides from mammals.
Blomback B., Blomback M., Grondahl N.J. et al
1965, Acta Chem. Scand. (19) 1789-1791
Studies on fibrinopeptides from primates.
Blomback B., Blomback M., Grondahl N.J. et al
1965, Acta Chem. Scand. (19) 1788-1789
Amino acid sequence of bovine fibrinopeptides.
Sjoquist J., Blomback B., Wallen P. et al
1960, Ark. Kemi (16) 425-436
Thrombin-induced formation of co-fibrin. III. Acid degradation studies and summary of sequential evidence on peptide A.
Folk J.E., Gladner J.A., Levin Y. et al
1959, J. Biol. Chem. (234) 2317-2320
Fibrinogen DNA and protein sequences.
Chung D.W., Grieninger G.
In Ebert R F eds RL Index of variant human fibrinogens pp 13-24 CRC Press Boca Raton RL 1994
The biosynthesis of fibrinogen and the cloning of its cDNA.
Chung D.W., Rixon M.W., Davie E.W. et al
In Bradshaw R A eds RL Proteins biology and medicine pp 309-328 Academic Press New York RL 1982
The biosynthesis of fibrinogen and the cloning of its cDNA.
Chung D.W., Rixon M.W., Davie E.W. et al
In Bradshaw R A eds RL Proteins in biology and medicine pp 309-328 Academic Press New York RL 1982
Human fibrinogen: sequence, sulfur bridges, glycosylation and some structural variants.
Henschen A., Lottspeich F., Southan C. et al
In Peeters H eds RL Protides of the biological fluids Proc 28th colloquium pp 51-56 Pergamon Press Oxford 1980
Human fibrinogen: sequence, sulfur bridges, glycosylation and some structural variants.
Henschen A., Lottspeich F., Southan C. et al
In Peeters H eds RL Protides of the biological fluids Proc 28th colloquium pp 51-56 RL Pergamon Press Oxford 1980
SeattleSNPs. NHLBI HL66682 program for genomic applications, UW- FHCRC, Seattle, WA (URL: http://pga.gs.washington.edu).
Rieder M.J., Carrington D.P., Chung M.-W. et al
Submitted JUN-2001 to the EMBL GenBank DDBJ databases
SeattleSNPs. NHLBI HL66682 program for genomic applications, UW- FHCRC, Seattle, WA (URL: http://pga.gs.washington.edu).
Rieder M.J., Carrington D.P., Chung M.-W. et al
Submitted JUN-2001 to the EMBL GenBank DDBJ databases