Constantin Yakovenko scite author profile

Constantin Yakovenko

2Publications

14Citation Statements Received

24Citation Statements Given

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Affiliations

Tel Aviv University

Publications

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Quantitative genetic analysis of circulating levels of biochemical markers of bone formation

2000

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Carboxyterminal propeptide of type 1 collagen (PICP) and bone Gla-protein-osteocalcin (BGP) are the most important components of the organic bone matrix and play a key role in bone formation. To investigate whether and to what extent variation of the plasma levels of these indices of bone turnover depends on genetic factors, we studied 355 adults belonging to nuclear pedigrees. Genetic analysis was carried out in 2 steps: 1) variance decomposition analysis was performed using the FISHER statistical package; and 2) complex segregation analysis implemented in the program package MAN. The effect of age and gender differences, gender hormones, as well as PTH and vitamin-D (calcidiol) plasma levels were evaluated simultaneously with the parameters of variance analysis. The results showed that about 50% of PICP variation is attributable to genetic factors. The effect of age was significant among men and postmenopausal women, whereas calcidiol influenced variation of PICP in premenopausal women. The results of variance analysis showed that some 40% of BGP, adjusted for confounding variables, can be explained in genetic factors. Age and PTH were important covariates for osteocalcin in men and premenopausal women. Exploration of the maximum likelihood estimates of the various hypotheses concerning the mode of intergenerational transmission of PICP and BGP demonstrated a good correspondence to the Mendelian mode of inheritance (i.e., major gene effect).

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Substantial Genetic Effects Involved in Determination of Circulating Levels of Calciotropic Hormones in Human Pedigrees

Livshits¹,

Yakovenko²,

Seibel³

2003

Biochem Genet

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This paper reports the results of a series of univariate and bivariate statistical genetic analyses that were performed on a sample of nuclear and more complex pedigrees (N = 567 individuals) of an ethnically homogenous White population. Our major objectives were: (1) To quantitatively evaluate the extent and pattern of the putative genetic effects on plasma level variation and covariation of the intact parathyroid hormone (PTH) and 25-hydroxyvitamin D [25(OH)D]; (2) To evaluate the extent of the possible genetic covariation between each of the two calciotropic hormones and two important bone mass traits, namely radiographic hands bone mineral density (BMD) and cortical index (CI). Variance component analysis, as implemented in the statistical package FISHER unambigously demonstrated that in addition to age, genetic factors contribute significantly to interindividual variation of both calciotropic hormones (37.5% for PTH and 53.3% for 25(OH)D). Complex segregation analysis strongly suggested the involvement of major gene effects into the determination of 25(OH)D levels, but was not clear cut with respect to PTH. Significant correlations between circulating levels of study hormones were found (-0.146, P < 0.05 in men and -0.194, P < 0.01 in women). However, no genetic correlation was revealed between PTH and 25(OH)D plasma concentrations. Bivariate analyses showed that familial cross correlations between PTH and BMD and CI measured at the bones of the hand were consistently statistically significant, suggesting moderate, but detectable pleiotropic genetic effects. The corresponding genetic correlations were -0.461 +/- 0.153 and -0.223 +/- 0.113, respectively. Circulating levels of 25(OH)D showed neither phenotypic nor genetic correlation with any of the BMD or CI variation.

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