Spatial structure of soymorphin-6 molecule

封面

如何引用文章

全文:

开放存取 开放存取
受限制的访问 ##reader.subscriptionAccessGranted##
受限制的访问 订阅存取

详细

By the method of the theoretic conformational analysis the conformational capabilities of the soymorphin-6 (Tyr1-Pro2-Phe3-Val4-Val5-Asn6-NH2) molecule were studied. The potential energy of this molecule is given as the sum of nonvalent, electrostatic and torsional interactions and the energy of hydrogen bonds. Low-energy conformations of the soymorphin-6 molecule, the values of the dihedral angles of the main and side chains of amino acid residues that make up the molecules are found, the energy of intra- and inter-residual interactions is estimated. It is shown that the spatial structure of the soymorphin-6 molecule can be represented by eight conformations. The results obtained can be used to study the structure and structural-functional organization of the soymorphin molecules.

作者简介

L. Agaeva

Baku State University

Email: leylanamig@mail.ru
Baku, Azarbaycan

A. Abdinova

Azerbaijan State Pedagogical University

Baku, Azarbaycan

S. Akhmedova

Azerbaijan Technical University

Baku, Azarbaycan

N. Akhmedov

Baku State University

Baku, Azarbaycan

N. Akhmedov

Baku State University

Baku, Azarbaycan

参考

  1. Е. А. Чеснокова, Н. Ю. Сарычева, В. А. Дубынин и А. А.Каменский, Успехи физиол. наук, 46 (1), 22 (2015).
  2. E. De Azevedo, Rev. Saude Publica, 45 (4), 1 (2011).
  3. K. Kaneko, M. Iwaski, M. Yoshikawa, and K. Ohinata, Am. J. Physiol. Gastrointest. Liver Physiol., 299 (3), G799 (2010).
  4. K. Ohinata, S. Agui, and M. Yoshikawa, Biosci. Biotechnol. Biochem., 71 (10), 2618 (2007).
  5. S. Yang, S. Sonoda, L. Chen, and M. Yoshikawa, Peptides, 24 (4), 503 (2003).
  6. S. Yang, J. Yunden, S. Sonoda, et al., FEBS Lett., 509, 213 (2001).
  7. Н. А. Ахмедов, Н. М. Годжаев, Е. В. Сулейманова и Е. М. Попов, Биоорганич. химия, 16 (5), 661 (1990).
  8. Н. А. Ахмедов, Молекуляр. биология, 23, 240 (1989).
  9. N. A. Akhmedov, Z. H. Tagiyev, E. M. Hasanov, and G. A. Akhverdieva, J. Mol. Structure, 646, 75 (2003).
  10. N. A. Akhmedov, L. I. Ismailova, R. M. Abbasli, et al., IOSR J. Appl. Phys. (IOSR-JAP), 8, 66 (2016).
  11. N. A. Akhmedov, R. M. Abbasli, L. N. Agayeva, and L. I. Ismailova, In Modern Trends In Physics (Conf. Proceed., 2019), V. II, p. 201.
  12. N. A. Akhmedov, L. N. Agayeva, G. A. Akverdieva, et al., J. Chem. Soc. Pak., 43 (5), 500 (2021).
  13. N. A. Akhmedov, L. N. Agayeva, S. R. Akhmedova, et al., IOSR J. Appl. Phys. (IOSR-JAP), 13 (5), 62 (2021).
  14. Л. Н. Агаева, А. А. Абдинова, С. Р. Ахмедова и Н. А. Ахмедов, Биофизика, 66 (4), 629 (2021).
  15. Н. А. Ахмедов, Л. Н. Агаева, Ш. Н. Гаджиева и др., Актуальные вопросы биологич. физики и химии, 4 (1) 63 (2019).
  16. L. i. Ismailova, R. M. Abbasli, and N. A. Akhmedov, In Proc.Int. Conf. COIA (2020), V. I, p. 218.
  17. IUPAC-IUB. Quantities, Units and Symbols in Physical Chemistry (Blackwell Scientific, Oxford, 1993).

补充文件

附件文件
动作
1. JATS XML

版权所有 © Russian Academy of Sciences, 2023