Количество страниц: 10 с.
Completed a comprehensive description of the current state of horse breeding in the Sakha (Yakutia) Republic. Created a unified attributive GIS database of distribution of the Yakutian horses in the Sakha (Yakutia) Republic at the ulus and nasleg levels, which presents data on farm subjects, livestock of the Yakutian Horses, which were subdivided into: Kolyma and Yana types of Yakutian breed (21 and 43 farms, respectively); horses that are related to Yakutian breed, but currently without determined type (26 farms). 16 farms have сertificates of registration in the public register of the Russian Federation about breeding of farm animals; 87 farms, data of which are collected for the first time in this work, breed Yakutian horses without proper registration. Developed electronic maps of horse breeding in the Sakha (Yakutia) Republic, the distribution of Yakutian breed of horses using GIS technologies, determined the structure of GIS layers and thematic content of maps: "The dynamics of the livestock herd of horses in the Sakha (Yakutia) Republic", "Gender and age structure of the herd horses of Sakha (Yakutia) Republic", "Distribution of the Yakutian breed of horses". Completed a consolidated list of vascular plants, which are included in the diet of the Yakutian horses, which listed 471 species and subspecies, from 137 genera and 28 families. Review of the literature on genomics and metagenomics of horses shows the basic molecular genetic tools to research horse genome, as well as data on genotyping horses in different loci and metagenomics of intestinal tract of horses. Completed the plan of main genomic researches of the Yakutian horse populations. Adviced to conduct genotyping by sex and autosomal chromosomes, mitochondrial genome, data of which will form the basis for deriving phylogenetic connection between the Yakutian horse and modern breeds of horses, as well as the study of intestinal microflora and vegetable diet of horses. Planned to use methods such as fragment analysis, Sanger sequencing, as well as high-throughput sequencing.
Распространение якутской лошади в РС (Я), изучение особенностей питания и дизайн эксперимента по исследованию генома: результаты и перспективы проекта / Ж. М. Охлопкова, кандидат биологических наук, В. Е. Колодезников, кандидат биологических наук, А. Н. Саввинова, кандидат географических наук, У. В. Егорова, студент группы БО-15, Е. Г. Николин, доктор биологических наук, Н. В. Слепцов, методист, М. Р. Кабилов, кандидат биологических наук, А. Н. Николаев, доктор биологических наук // Вторая Якутская комплексная экспедиция: начало пути : сборник материалов республиканской научно-практической конференции. – Якутск : Издательский центр СВФУ, 2017. – С. 96-104.
Количество страниц: 5 с.
- Математика. Естественные науки > Общая биология. Антропология. Вирусология. Микробиология,
- Прикладные науки. Медицина. Ветеринария. Техника. Сельское хозяйство > Медицина > Патология. Клиническая медицина,
- НАУКА ЯКУТИИ > МАТЕМАТИКА. ЕСТЕСТВЕННЫЕ НАУКИ > Общая биология. Антропология. Вирусология. Микробиология,
- НАУКА ЯКУТИИ > ПРИКЛАДНЫЕ НАУКИ. МЕДИЦИНА. ТЕХНИКА. СЕЛЬСКОЕ ХОЗЯЙСТВО > Медицина.
We manufactured electrospun 1.5 mm vascular patches using polycaprolactone and polyhydroxybutirate/valerate, which were modified by different linear or cyclic RGD peptides (RGDK, AhRGD и c[RGDFK]) and 1,6- hexamethylenediamine or 4,7,10-trioxa-1,13- tridecanediamine. The physicomechanical and hemocompatible properties of the developed structures were studied. Human a.mammaria and xenopericardial flap “KemPeriplas-Neo”, widely used in the clinic for carotid endarterectomy, were used as comparison groups. It was revealed that PHBV / PCL polymer patches with and without RGD caused significantly less erythrocyte hemolysis and platelet aggregation than the xenopericardial flap “KemPeriplas-Neo”, which may indicate a high biocompatibility of polymers and modifying agents used to make vascular patches.
Биодеградируемые сосудистые заплаты: сравнительная характеристика физико-механических и гемосовместимых свойств / Л. В. Антонова, А. В. Миронов, В. Н. Сильников, Т. В. Глушкова, Е. О. Кривкина, Т. Н. Акентьева, М. Ю. Ханова, В. В. Севостьянова, Ю. А. Кудрявцева, Л. С. Барбараш // Якутский медицинский журнал. — 2019. — N 4 (68). — С. 35-39.
DOI: 10.25789/YMJ.2019.68.08