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Molecular Vision 24
Showing records 1 to 24 | Display all abstracts in Molecular Vision60611 Associations of polymorphisms of LOXL1 gene with primary open-angle glaucoma: a meta-analysis based on 5,293 subjects
Wu M
Molecular Vision 2015; 21: 165-172
60462 Mutational analysis and genotype-phenotype correlations in southern Indian patients with sporadic and familial aniridia
Dubey SK
Molecular Vision 2015; 21: 88-97
60219 Disease progression in iridocorneal angle tissues of BMP2-induced ocular hypertensive mice with optical coherence tomography
Li G
Molecular Vision 2014; 20: 1695-1709
60610 CYP1B1 copy number variation is not a major contributor to primary congenital glaucoma
Souzeau E
Molecular Vision 2015; 21: 160-164
60219 Disease progression in iridocorneal angle tissues of BMP2-induced ocular hypertensive mice with optical coherence tomography
Farsiu S
Molecular Vision 2014; 20: 1695-1709
60462 Mutational analysis and genotype-phenotype correlations in southern Indian patients with sporadic and familial aniridia
Mahalaxmi N
Molecular Vision 2015; 21: 88-97
60610 CYP1B1 copy number variation is not a major contributor to primary congenital glaucoma
Hayes M
Molecular Vision 2015; 21: 160-164
60611 Associations of polymorphisms of LOXL1 gene with primary open-angle glaucoma: a meta-analysis based on 5,293 subjects
Zhu XY
Molecular Vision 2015; 21: 165-172
60462 Mutational analysis and genotype-phenotype correlations in southern Indian patients with sporadic and familial aniridia
Vijayalakshmi P
Molecular Vision 2015; 21: 88-97
60611 Associations of polymorphisms of LOXL1 gene with primary open-angle glaucoma: a meta-analysis based on 5,293 subjects
Ye J
Molecular Vision 2015; 21: 165-172
60610 CYP1B1 copy number variation is not a major contributor to primary congenital glaucoma
Ruddle JB
Molecular Vision 2015; 21: 160-164
60219 Disease progression in iridocorneal angle tissues of BMP2-induced ocular hypertensive mice with optical coherence tomography
Qiu J
Molecular Vision 2014; 20: 1695-1709
60610 CYP1B1 copy number variation is not a major contributor to primary congenital glaucoma
Elder JE
Molecular Vision 2015; 21: 160-164
60462 Mutational analysis and genotype-phenotype correlations in southern Indian patients with sporadic and familial aniridia
Sundaresan P
Molecular Vision 2015; 21: 88-97
60219 Disease progression in iridocorneal angle tissues of BMP2-induced ocular hypertensive mice with optical coherence tomography
Dixon A
Molecular Vision 2014; 20: 1695-1709
60610 CYP1B1 copy number variation is not a major contributor to primary congenital glaucoma
Staffieri SE
Molecular Vision 2015; 21: 160-164
60219 Disease progression in iridocorneal angle tissues of BMP2-induced ocular hypertensive mice with optical coherence tomography
Song C
Molecular Vision 2014; 20: 1695-1709
60610 CYP1B1 copy number variation is not a major contributor to primary congenital glaucoma
Kearns LS
Molecular Vision 2015; 21: 160-164
60219 Disease progression in iridocorneal angle tissues of BMP2-induced ocular hypertensive mice with optical coherence tomography
McKinnon SJ
Molecular Vision 2014; 20: 1695-1709
60610 CYP1B1 copy number variation is not a major contributor to primary congenital glaucoma
Mackey DA
Molecular Vision 2015; 21: 160-164
60219 Disease progression in iridocorneal angle tissues of BMP2-induced ocular hypertensive mice with optical coherence tomography
Yuan F; Gonzalez P
Molecular Vision 2014; 20: 1695-1709
60610 CYP1B1 copy number variation is not a major contributor to primary congenital glaucoma
Zhou T; Ridge B
Molecular Vision 2015; 21: 160-164
60219 Disease progression in iridocorneal angle tissues of BMP2-induced ocular hypertensive mice with optical coherence tomography
Stamer WD
Molecular Vision 2014; 20: 1695-1709
60610 CYP1B1 copy number variation is not a major contributor to primary congenital glaucoma
Burdon KP; Dubowsky A; Craig JE
Molecular Vision 2015; 21: 160-164
