The Cloning (programming) study which covers Programming language that intersects with Expression (computer science). In his work, Florent Soubrier performs multidisciplinary research in Expression (computer science) and Programming language. Allele frequency and Heterozygote advantage are inherently bound to his Genotype studies. His research combines Genotype and Heterozygote advantage. His research on Genetics frequently connects to adjacent areas such as Epithelium. He brings together Epithelium and Gene to produce work in his papers. His work often combines Gene and Allele frequency studies. His Spontaneously hypertensive rat research extends to the thematically linked field of Endocrinology. In his works, he conducts interdisciplinary research on Enzyme and Cell biology.
Florent Soubrier is investigating Gene as part of his inquiry into Allele, Gene expression, Mutation and Messenger RNA. His Gene expression study frequently links to adjacent areas such as Biochemistry. Biochemistry and Angiotensin II are frequently intertwined in his study. By researching both Mutation and Genetics, he produces research that crosses academic boundaries. Genetics and Allele are two areas of study in which Florent Soubrier engages in interdisciplinary research. Borrowing concepts from Gene, Florent Soubrier weaves in ideas under Messenger RNA. His research on Internal medicine frequently connects to adjacent areas such as Renin–angiotensin system. His Renin–angiotensin system study frequently links to related topics such as Endocrinology. In most of his Endocrinology studies, his work intersects topics such as Angiotensin-converting enzyme.
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An insertion/deletion polymorphism in the angiotensin I-converting enzyme gene accounting for half the variance of serum enzyme levels.
B Rigat;C Hubert;F Alhenc-Gelas;F Cambien.
Journal of Clinical Investigation (1990)
Molecular basis of human hypertension: Role of angiotensinogen
Xavier Jeunemaitre;Florent Soubrier;Yuri V. Kotelevtsev;Richard P. Lifton;Richard P. Lifton.
PCR detection of the insertion/deletion polymorphism of the human angiotensin converting enzyme gene (DCP1) (dipeptidyl carboxypeptidase 1)
Brigitte Rigat;Christine Hubert;Pierre Corvol;Florent Soubrier.
Nucleic Acids Research (1992)
Evidence, from combined segregation and linkage analysis, that a variant of the angiotensin I-converting enzyme (ACE) gene controls plasma ACE levels.
L Tiret;B Rigat;S Visvikis;C Breda.
American Journal of Human Genetics (1992)
Angiotensin II type 1 receptor gene polymorphisms in human essential hypertension.
Alain Bonnardeaux;Eleanor Davies;Xavier Jeunemaitre;Isabelle Fery.
Two putative active centers in human angiotensin I-converting enzyme revealed by molecular cloning.
Florent Soubrier;Francois Alhenc-Gelas;Christine Hubert;Jacqueline Allegrini.
Proceedings of the National Academy of Sciences of the United States of America (1988)
Genetics and genomics of pulmonary arterial hypertension
Florent Soubrier;Wendy K. Chung;Rajiv Machado;Ekkehard Grünig.
Journal of the American College of Cardiology (2009)
Chromosomal mapping of two genetic loci associated with blood-pressure regulation in hereditary hypertensive rats.
P. Hilbert;K. Lindpaintner;K. Lindpaintner;J. S. Beckmann;T. Serikawa.
Structure of the angiotensin I-converting enzyme gene. Two alternate promoters correspond to evolutionary steps of a duplicated gene.
Christine Hubert;Anne-Marie Houot;Pierre Corvol;Florent Soubrier.
Journal of Biological Chemistry (1991)
Synergistic effects of angiotensin-converting enzyme and angiotensin-II type 1 receptor gene polymorphisms on risk of myocardial infarction.
L Tiret;P Ducimetière;A Bonnardeaux;F Soubrier.
The Lancet (1994)
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