Russian Journal of Developmental Biology
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Published By Pleiades Publishing

1608-3326, 1062-3604

2021 ◽  
Vol 52 (6) ◽  
pp. 422-429
Author(s):  
D. V. Boguslavsky ◽  
I. S. Zakharov

2021 ◽  
Vol 52 (6) ◽  
pp. 379-389
Author(s):  
M. N. Gordeev ◽  
E. I. Bakhmet ◽  
A. N. Tomilin
Keyword(s):  

2021 ◽  
Vol 52 (6) ◽  
pp. 414-421
Author(s):  
A. R. Murtazina ◽  
T. S. Pronina ◽  
K. I. Chandran ◽  
L. K. Dilmukhametova ◽  
N. S. Bondarenko ◽  
...  

2021 ◽  
Vol 52 (6) ◽  
pp. 370-378
Author(s):  
A. Yu. Kulibin ◽  
E. A. Malolina

Abstract The rete testis connects seminiferous tubules in which germ cells develop to the efferent ducts and the epididymis, where gametes mature and gain mobility. Several recent studies have thoroughly explored the morphogenesis of this structure in mice during embryonic and postnatal periods. A part of the rete testis has been shown to derive from the precursors of gonad somatic cells before sex determination. The other part forms from embryonal Sertoli cells of testis cords adjacent to the mesonephros. The transformation of Sertoli cells into rete testis cells is apparently not limited to the embryonic stage of development and continues during postnatal testis development. Recently, it was found that the rete testis participates in the formation and maintenance of specialized Sertoli cells in terminal segments of seminiferous tubules, transitional zones. Current views suggest that the transitional zones of the seminiferous tubules may represent a niche for spermatogonial stem cells, the site of the prolonged proliferation of Sertoli cells in the pubertal and postpubertal periods of testis development, and also could be a generator of spermatogenic waves. To sum up, the rete testis transports gametes from the testis to the epididymis, maintains pressure within seminiferous tubules, regulates the composition of the testicular fluid, and impacts the spermatogenic process itself.


2021 ◽  
Vol 52 (6) ◽  
pp. 355-369
Author(s):  
T. A. Ezhova

Abstract Plants have a unique ability to adapt ontogenesis to changing environmental conditions and the influence of stress factors. This ability is based on the existence of two specific features of epigenetic regulation in plants, which seem to be mutually exclusive at first glance. On the one hand, plants are capable of partial epigenetic reprogramming of the genome, which can lead to adaptation of physiology and metabolism to changed environmental conditions as well as to changes in ontogenesis programs. On the other hand, plants can show amazing stability of epigenetic modifications and the ability to transmit them to vegetative and sexual generations. The combination of these inextricably linked epigenetic features not only ensures survival in the conditions of a sessile lifestyle but also underlies a surprisingly wide morphological diversity of plants, which can lead to the appearance of morphs within one population and the existence of interpopulation morphological differences. The review discusses the molecular genetic mechanisms that cause a paradoxical combination of the stability and lability properties of epigenetic modifications and underlie the polyvariance of ontogenesis. We also consider the existing approaches for studying the role of epigenetic regulation in the manifestation of polyvariance of ontogenesis and discuss their limitations and prospects.


2021 ◽  
Vol 52 (6) ◽  
pp. 390-400
Author(s):  
R. O. Cherezov ◽  
Ju. E. Vorontsova ◽  
O. B. Simonova
Keyword(s):  

2021 ◽  
Vol 52 (6) ◽  
pp. 449-456
Author(s):  
Omid Banafshi ◽  
Hamid Ahmadi ◽  
Farzad Soleimani ◽  
Kaveh Rahimi ◽  
Fardin Fathi

2021 ◽  
Vol 52 (5) ◽  
pp. 344-353
Author(s):  
E. Nibona ◽  
C. Niyonkuru ◽  
X. Liang ◽  
Q. Yao ◽  
H. Zhao

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