Genetic pathogenesis of essential arterial hypertension (the review)

References (including transliteration from Cyrillic to Roman script)

1.  Puzyrev V.P. Genetika arterial'noj gipertenzii (sovremennye issledovatel'skie paradigmy) // Klinicheskaja medicina. 2003. № 1. S. 12-18.
2.    Naber S.K., Siffer W. Genetics of human arterial hypertension // Minerva. Med. 2004. Vol. 5, № 5. P. 347-356.
3.  Genetics of human coronary vasomotion / C.K. Naber, W. Siffer, R. Erbel, G. Heusch // Arch. Mai. Coeur. Vaiss. 2004. Vol. 97, № 3. P. 255-260.
4.    Lifton R.P, Gharavi A.G., Geller D.S. Molecular mechanisms of human hypertension // Cell. 2001. Vol. 104, № 4. P. 545-556.
5.  Furruck S., Malik M. Renin-angiotensin system: genes to bedside //Am. Heart. J. 1997. Vol. 134, № 3. P. 514-527.
6.   Minushkina L.O. Geny angiotenzinprevrawajuwego fermenta, NO-sintetazy i jendotelina-l i gipertrofija miokarda levogo zheludochka u bol'nyh gipertonicheskoj bolezn'ju korennyh zhitelej Jakutii // Kardiologija. 2005. № 1. S. 41-44.
7.  Zavisimost' mezhdu vozniknoveniem stabil'noj arterial'noj gipertenziej u detej i polimorfizmom genov renin-angiotenzinovoj i kinin-bradikininovoj sistem / A.S. Glotov, T.Je. Ivawenko, G.I. Obrazcova [i dr.] // Molekuljarnaja biologija. 2007. T. 41, № 1. S. 18-25.
8. Rupert J.L., Kidd K.K., Norman L.E. Genetic polimorphisms in the Renin-Angiotensin system in high-altitude and low-altitude Native American population //Ann. Hum. Genet. 2003. Vol. 67, №1. P. 17-25.
9.   Dufour C, Casane D., Denton D. Human-chimpanzee DNA sequence variation in the four major genes of the rennin angiotensin system // Genomics. 2000. Vol. 69, № 1. P. 14-26.
10.  Fu Y, Katsuya T., Asai T. Lack of the correlation between Mbo I restriction fragment length polimorphisms of renin gene and essential hypertension in Japanese // Hypertens. Res. 2001. Vol. 24, № 3. P. 295-298.
11.   Frossard P.M., Lestringant G.G., Malloy M. Human renin gene Bgll dimorphism associated with hypertension in two independent populations // Clin. Genet. 1999. Vol. 56., № 6. P.428-433.
12.  Strong association of a renin intronic dimorphism with essential hypertention / U.Ahmad, D. Saleheed, A. Bokhari, P.M. Frossard // Hypertens. Res. 2005. Vol. 28, № 4. P. 339-344.
13. Amicroarray minisequencing system for pharmacogenetic profiling   of antihypertensive   drug   response   /   U.   Liljedahl,
J.  Karlsson,  H.  Melhus [et al.] // Pharmacogenetics.  2003. Vol. 13, №1. P.7-17.
14. Angiotensinogen 235T allele «dosage» is associated with blood pressure phenotypes/A.C. Pereira, G.F. Mota, R.S. Cunha [et al.] // Hypertension. 2003. Vol. 41, № 1. P.25-30.
15.  Polymorphism of the insertion / deletion ACE and M235T AGT genes and hypertension: surprising new findings and meta-analysis of data / A. Mondry, M. Loh, P. Lui [et al.] // M. VMS. Nephrol. 2005. Vol. 6. P. 11.
16.   Genomewide Linkage Analysis of Weight Change in the Framingham Heart Study / C.S. Fox, N.L. Heard-Costa, R.S. Vasan [et al.] // J. Clin. Endocrinol. Metab. 2005. Vol. 15. P. 3197-3201.
17.  Polimorfnye markery l/D i G7831A gena fermenta, prevrawajuwego angiotenzin 1, i gipertrofija miokarda u bol'nyh arterial'noj gipertoniej / V.A. Brazhnik [i dr.] // Kardiologija. 2003. № 2. S. 44-49.
18.  Effects of ASE l/D and AT1R-A1166C polymorphisms on blood pressure in a healthy normotensive primary care population: first results of the Hippocates study / L.H. Henskens, W. Spiering, H.E. Stoffers [et al.] // J. Hypertens. 2003. Vol. 21., №1. P. 81-86.
19.  A/C1166 gene polymorphism of the angiotensin II type 1 receptor (AT1) and ambulatory blood pressure: the Ohasama Study / M. Kikuya, K. Sugimoto, T. Katsuya [et al.] // Hypertens. Res. 2003. Vol. 26, № 2. P. 141-145.
20.  Polimorfizm gena sosudistogo receptora angioten-zina II i serdechno-sosudistye zabolevanija / D.A. Chistjakov [i dr.] // Ter. arhiv. 2001. № 1. S. 27-30.
21.   Beijing Atherosclerosis Study. Angiotensin II type I receptor gene and myocardial infarction: tagging SNPs and haplotype based association study. The Beijing atherosclerosis study / S. Su, J. Chen, J. Zhao [et al.] // Pharmacogenetics. 2004. Vol. 14, №10. P. 673-681.
22.  Jin J.J., Nakura J., Wu Z. Association of angiotensin II type 2 receptor gene variant with hypertension // Hypertens. Res. 2003. Vol. 26, № 7. P. 547-552.
23.  Bradykinin receptor gene variant and human physical performance /A.G. Williams, S.S. Dhamrait, P.T. Wootton [et al.] // J. Appl. Physiol. 2004. Vol. 96, № 3. P. 938-942.
24.WelchG.,UpchurchG.,LoscaloJ.Hyperhomoceysteinemia and atherothrombosis //Ann. NY Acad. Sci. 1997. Vol. 811. P. 48-58.
25.    Warren S Emergent cardiovascular risk factor: Homocysteine // Prog. Cardiovasc. Nurs. 2002. Vol. 17. P. 35-41.
26.   Homocysteine impairs coronary microvascular dilator function in humans /A. Tawakol, M. Forgione, M. Stuehlinger [et al.]//JACC. 2002. Vol. 40, №6. P. 1051-1058.
27.  Loscalzo J. The oxidant stress of hyperhomocysteinemia // J. Clin. Invest. 1996. № 98. P. 5.
28.   Homocysteine, endothelial dysfunction and oxidative stress in type 1 diabetes mellitus / F. Wotherspoon, D. Laight, K. Shaw, M. Cummings // Br. J. Diabetes Vase. Dis. 2003. Vol. 3 (5). P. 334-340.
29.    Polymorphism of the methionine synthase gene: association with homocysteine metabolism and late-onset vascular disease in the Japanese population / H. Morita, H. Kurihara, T. Sugiyama [et al.] // Arterioscler Thromb. Vase. Biol. 1999. Vol. 19. P. 298-302.
30.  Kupari M., Hautanen A., Lankinen L. Association between human aldosterone synthase (CYP11B2) gene polymorphism and left ventricular size, mass and function // Circulation. 1998. Vol. 97. P. 569-575.
31.   Lask of association between polymorphism of the aldosterone synthase gene and left ventricular structure / H.Schunkert, C.Hengstenberg, S.R. Holmer [et al.] // Circulation. 1999. Vol.99. P. 2225-2260.