Biology Reference
In-Depth Information
Miller M., Zeller K.
(1997) Alternative splicing in lecithin: cholesterol acyltransferase mRNA: an
evolutionary paradigm in humans and great apes.
Gene
190
: 309-313.
Milner C.M., Campbell R.D.
(1990) Structure and expression of the three MHC-linked HSP70
genes.
Immunogenetics
32
: 242-251.
Minakami R., Katsuki F., Sugiyama H.
(1993) A variant of metabotropic glutamate receptor
subtype 5: an evolutionarily conserved insertion with no termination codon.
Biochem. Biophys.
Res. Commun
.
194
: 622-627.
Mishra VS., Henske E.P., Kwiatkowski D.J., Southwick F.S.
(1994) The human actin-regulatory
protein Cap G: gene structure and chromosome location.
Genomics
23
: 560-565.
Misra-Press A., Cooke N.E., Liebhaber S.A.
(1994) Complex alternative splicing partially
inactivates the human chorionic somatomammotropin-like (
hCS-L
) gene.
J. Biol. Chem
.
269
: 23
220-23 229.
Miyabashira J., Sekiguchi T., Nishimoto T.
(1994) Mammalian cells have two functional RCC1
proteins produced by alternative splicing.
J. Cell Sci
.
107
: 2203-2208.
Miyazaki H., Fukamizu A., Hirose S., Hayashi T., Hori H., Ohkubo H., Nakanishi S., Murakami
K.
(1984) Structure of the human renin gene.
Proc. Natl. Acad. Sci. USA
81
: 5999-6003.
Mizumoto Y., Kimura T., Ivell R.
(1997) A genomic element within the third intron of the human
oxytocin receptor gene may be involved in transcriptional suppression.
Mol. Cell. Endocrinol
.
135
: 129-138.
Moran J.V., DeBerardinis R.J., Kazazian H.H.
(1999) Exon shuffling by L1 retrotransposition.
Science
283
: 1530-1534.
Murphy D.B., Seemann S., Wiese S., Kirschner R., Grzeschik K.H., Thies U.
(1997) The human
hepatocyte nuclear factor 3/fork head gene
FKHL13
: genomic structure and pattern of expression.
Genomics
40
: 462-469.
Nakagawa Y., Kosugi H., Miyajima A., Arai K., Yokota T
. (1994) Structure of the gene encoding
the
subunit of the human granulocyte-macrophage colony stimulating factor receptor.
J. Biol.
Chem
.
269
: 10 905-10 912.
Neer E.J., Schmidt C.J., Nambudripad R., Smith T.F.
(1994) The ancient regulatory-protein family
of WD-repeat proteins.
Nature
371
: 297-300.
Nolan K.F., Kaluz S., Higgins J.M.G., Goundis D., Reid K.B.M.
(1992) Characterization of the
human properdin gene.
Biochem. J
.
287
: 291-297.
O'Neil R.J.W., Brennan F.E., Delbridge M.L., Croier R.H., Marshall Graves J.A.
(1998)
De novo
insertion of an intron into the mammalian sex determining gene,
SRY
.
Proc. Natl. Acad. Sci. USA
95
: 1653-1657.
Orengo C.A., Flores T.P., Taylor W.R., Thornton J.M.
(1993) Identification and classification of
protein fold families.
Protein Eng
.
6
: 485-500.
Pascual J., Castresana J., Saraste M.
(1997) Evolution of the spectrin repeat.
BioEssays
19
: 811-817.
Patthy L.
(1985) Evolution of the proteases of blood coagulation and fibrinolysis by assembly from
modules.
Cell
41
: 657-663.
Patthy L.
(1987) Intron-dependent evolution: preferred types of exons and introns.
FEBS Letts
.
214
:
1-7.
Patthy L.
(1990) Evolutionary assembly of blood coagulation proteins.
Sem. Thromb. Hemostas
.
16
: 245-259.
Patthy L.
(1991a) Modular exchange principles in proteins.
Curr. Opin. Struct. Biol
.
1
: 351-361.
Patthy L.
(1991b) Exons - original building blocks of proteins?
BioEssays
13
: 187-192.
Patthy L.
(1994) Introns and exons.
Curr. Opin. Struct. Biol
.
4
: 383-392.
Patthy L.
(1995)
Protein Evolution by Exon-Shuffling
. Springer-Verlag, New York.
Patthy L., Trexler M., Vali Z., Banyai L., Varadi A.
(1984) Kringles: modules specialized for protein
binding.
FEBS Letts
.
171
: 131-136.
Plamer J.D., Logsdon J.M.
(1991) The recent origins of introns.
Curr. Opin. Genet. Devel
.
1
:
470-477.
Raben N., Nichols R.C., Martiniuk F., Plotz P.H.
(1996) A model of mRNA splicing in adult
lysosomal storage disease (glycogenosis type II).
Hum. Molec. Genet
.
5
: 995-1000.
Reardon D., Farber G.K.
(1995) The structure and evolution of
/
barrel proteins.
FASEB J
.
9
:
497-503.
Redina O.E., Frohman M.A.
(1998) Genomic analysis of murine phospholipase D1 and comparison
to phospholipase D2 reveals an anusual difference in gene size.
Gene
222
: 53-60.
