¨¸Ó³ ¢ —Ÿ. 2016. ’. 13, º 1(199). ‘. 220Ä232 „ˆˆ‹ƒˆŸ, Š‹ƒˆŸ ˆ Ÿ„…Ÿ Œ…„ˆ–ˆ ‹Š‹œ›… „…”…Š’› ‘’“Š’“› Œ…Œ ˆ’–ˆ’‚ ˆ „…‰‘’‚ˆˆ “‹œ’”ˆ‹…’‚ƒ ˆ‡‹“—…ˆŸ Š‚œ …. Š. Šμ§²μ¢ , ¡,1 , ‚. . ‘¥·£Ê´μ¢ , …. . Š· ¸ ¢¨´ ¢ , . ‚. μ·¥°±μ ¢ , . ‚. ‡ ¢ÓÖ²μ¢ , . . Šμ§²μ¢ ¡ , . Œ. —¥·´ÒÏ , ¡ ¡ ”ƒ“ ® Êδμ-¨¸¸²¥¤μ¢ É¥²Ó¸±¨° ¨´¸É¨ÉÊÉ μ¡Ð¥° ·¥ ´¨³ Éμ²μ£¨¨ ¨³. ‚. . ¥£μ¢¸±μ£μ¯, Œμ¸±¢ ƒ“ ‚ ¥·¢Ò° Œμ¸±μ¢¸±¨° £μ¸Ê¤ ·¸É¢¥´´Ò° ³¥¤¨Í¨´¸±¨° Ê´¨¢¥·¸¨É¥É ¨³. ˆ. Œ. ‘¥Î¥´μ¢ Œ¨´§¤· ¢ μ¸¸¨¨, Œμ¸±¢ ¢ ¡Ñ¥¤¨´¥´´Ò° ¨´¸É¨ÉÊÉ Ö¤¥·´ÒÌ ¨¸¸²¥¤μ¢ ´¨°, „Ê¡´ –¥²ÓÕ · ¡μÉÒ Ö¢²Ö¥É¸Ö ¨§ÊÎ¥´¨¥ ²μ± ²Ó´ÒÌ Éμ¶μ²μ£¨Î¥¸±¨Ì ¤¥Ë¥±Éμ¢ ³¥³¡· ´ Ô·¨É·μͨÉμ¢, ¢μ§´¨± ÕÐ¨Ì ¢ ·¥§Ê²ÓÉ É¥ ¤¥°¸É¢¨Ö ʲÓÉ· Ë¨μ²¥Éμ¢μ£μ (“”) ¨§²ÊÎ¥´¨Ö ´ ±·μ¢Ó, in vitro. ¨μ²μ£¨Î¥¸±¨¥ ¶μ¸²¥¤¸É¢¨Ö ¢ Ô·¨É·μÍ¨É Ì ¶μ¸²¥ ¢μ§¤¥°¸É¢¨Ö “”-¨§²ÊÎ¥´¨Ö ¸ ¤²¨´μ° ¢μ²´Ò λ = 254 ´³ ¢μ ³´μ£μ³ ¡²¨§±¨ ÔËË¥±É ³ ¶·¨ ¢μ§¤¥°¸É¢¨¨ γ-¨§²ÊÎ¥´¨Ö. μ± § ´μ, ÎÉμ 챨¸²¨É¥²Ó´Ò¥ ¶·μÍ¥¸¸Ò, ¢μ§´¨± ÕШ¥ ¢ ¸Ê¸¶¥´§¨¨ ¶·¨ ¤¥°¸É¢¨¨ “”-¨§²ÊÎ¥´¨Ö, ¶·¨¢μ¤ÖÉ ± ´ ·ÊÏ¥´¨Õ ´ ´μ¸É·Ê±ÉÊ·Ò ³¥³¡· ´ Ô·¨É·μͨÉμ¢. ‚ μ¶ÒÉ Ì ´ ¡²Õ¤ ²¨ ɨ¶¨Î´Ò¥ Éμ¶μ²μ£¨Î¥¸±¨¥ ¤¥Ë¥±ÉÒ ´ ´μ¸É·Ê±ÉÊ·Ò ³¥³¡· ´. · ³¥É·Ò ¤¥Ë¥±Éμ¢ μɲ¨Î ²¨¸Ó μÉ Ì · ±É¥·¨¸É¨± ´ ´μ¸É·Ê±ÉÊ·Ò ³¥³¡· ´ ±μ´É·μ²Ó´ÒÌ ±²¥Éμ± ¡¥§ μ¡²ÊÎ¥´¨Ö. • · ±É¥·´Ò¥ · §³¥·Ò Éμ¶μ²μ£¨Î¥¸±¨Ì ¤¥Ë¥±Éμ¢ ¸μ¨§³¥·¨³Ò ¸ · §³¥· ³¨ ¸¶¥±É·¨´μ¢μ£μ ³ É·¨±¸ . ‚ ·¥§Ê²ÓÉ É¥ ¢μ§¤¥°¸É¢¨Ö “”-¨§²ÊÎ¥´¨Ö ´ ¡²Õ¤ ²¸Ö ¶μ²¨³μ·Ë¨§³ Ô·¨É·μͨÉμ¢. The aim is to study the local topological defects of erythrocytes membranes resulting from the action of ultraviolet (UV) radiation on the blood, in vitro. Biological effects of the erythrocytes after exposure to UV radiation with a wavelength λ = 254 nm are much similar to the effects when exposed to γ radiation. It is shown that the oxidative processes that occur in the suspension under the action of UV radiation resulted in disruption of the membranes of erythrocytes nanostructure. In the experiments there were observed typical topological defects of membranes nanostructure. Parameters of defects differ from the characteristics of the control cell membrane nanostructure without irradiation. The characteristic dimensions of topological defects are commensurate with the size of spectrin matrix. As a result of exposure to UV radiation polymorphism of erythrocytes was observed. PACS: 87.53.-j Š ± ¨§¢¥¸É´μ, ¤¥°¸É¢¨¥ ¨μ´¨§¨·ÊÕÐ¨Ì ¨§²ÊÎ¥´¨° ¨ “”-¸¢¥É ´ ±²¥É±¨ ¢Ò§Ò¢ ¥É ¶μ¢·¥¦¤¥´¨Ö ´¥ Éμ²Ó±μ £¥´¥É¨Î¥¸±¨Ì ¸É·Ê±ÉÊ·, ´μ ¨ ±²¥ÉμδÒÌ ³¥³¡· ´ [1Ä4]. ¸μ¡Ò° ¶· ±É¨Î¥¸±¨° ¨´É¥·¥¸ ¶·¥¤¸É ¢²Ö¥É ¨§ÊÎ¥´¨¥ ¤¥°¸É¢¨Ö ¨§²ÊÎ¥´¨° ´ ³¥³¡· ´Ò ±· ¸´ÒÌ ±²¥Éμ± ±·μ¢¨ (Ô·¨É·μͨÉμ¢). 1 E-mail: waterlake@mail.ru ‹μ± ²Ó´Ò¥ ¤¥Ë¥±ÉÒ ´ ´μ¸É·Ê±ÉÊ·Ò ³¥³¡· ´ Ô·¨É·μͨÉμ¢ 221 ´¥¥ ³¥Éμ¤μ³ ± ²¨¡·μ¢ ´´μ° Ô²¥±É·μ¶μ· ͨ¨ ¡Ò²μ ¶μ± § ´μ, ÎÉμ ¢ ³¥³¡· ´ Ì Ô·¨É·μͨÉμ¢ ¢μ§´¨± ÕÉ ² É¥´É´Ò¥ ¶μ¢·¥¦¤¥´¨Ö ´ ´μ¸É·Ê±ÉÊ·Ò ¢ Ϩ·μ±μ³ ¤¨ ¶ §μ´¥ ¤μ§. ɨ ¶·μÍ¥¸¸Ò ¡Ò²¨ ¨§ÊÎ¥´Ò ¤²Ö γ-¨§²ÊÎ¥´¨Ö, ¤²Ö ¤¥°¸É¢¨Ö ÉÖ¦¥²ÒÌ ¨μ´μ¢ Å ¨μ´μ¢ ¡μ· , ¤²Ö ¶ÊÎ±μ¢ Ê¸±μ·¥´´ÒÌ Ô²¥±É·μ´μ¢ [5Ä7]. ‚μ§´¨±´μ¢¥´¨¥ ¤¥Ë¥±Éμ¢ ´ ´μ¸É·Ê±ÉÊ·Ò ³¥³¡· ´ ¸μ¶·μ¢μ¦¤ ²μ¸Ó ´ ·ÊÏ¥´¨Ö³¨ ¨μ´´μ£μ μ¡³¥´ ¨, ± ± ¸²¥¤¸É¢¨¥, ¨§³¥´¥´¨Ö³¨ ³μ·Ëμ²μ£¨¨ ±²¥Éμ±. μ± § ´μ, ÎÉμ ¶·¨ ¸É¥·¨²¨§ ͨ¨ ¤μ´μ·¸±μ° ±·μ¢¨ ¨²¨ Ô·¨É·μꬃ ·´μ° ¢§¢¥¸¨ ¸ ¶μ³μÐÓÕ ¨μ´¨§¨·ÊÕÐ¥£μ ¨§²ÊÎ¥´¨Ö ¢ ¤μ§ Ì ¤μ ¤¥¸ÖÉ±μ¢ ±¨²μ£·¥° £¥³ Éμ²μ£¨Î¥¸±¨¥ ¶μ± § É¥²¨ ±·μ¢¨ ¨§³¥´Ö²¨¸Ó [8]. ‚ ·¥§Ê²ÓÉ É¥ ´ ·ÊÏ ²¸Ö £ §μμ¡³¥´ ³¥¦¤Ê ±·μ¢ÓÕ ¨ ɱ ´Ö³¨, ¨ · §¢¨¢ ²¨¸Ó ¶ Éμ˨§¨μ²μ£¨Î¥¸±¨¥ ¶·μÍ¥¸¸Ò ¢ μ·£ ´¨§³¥ ¢ Í¥²μ³ [9, 10]. „¥É¥±É¨·μ¢ ´¨¥ ¨ ¨§ÊÎ¥´¨¥ μ¸μ¡¥´´μ¸É¥° ¸É·Ê±ÉÊ·´ÒÌ ¨§³¥´¥´¨° ¡¨μ²μ£¨Î¥¸±¨Ì ³¥³¡· ´ ¶·¨ ¤¥°¸É¢¨¨ ¨μ´¨§¨·ÊÕÐ¨Ì ¨§²ÊÎ¥´¨° μ¸²μ¦´Ö¥É¸Ö É¥³, ÎÉμ É·¥¡Ê¥É ¶·μ¢¥¤¥´¨Ö ¡μ²ÓÏμ£μ ±μ²¨Î¥¸É¢ Ô±¸¶¥·¨³¥´Éμ¢ ²¨¡μ ¸ · ¤¨μ ±É¨¢´Ò³¨ ¨¸Éμ䨱 ³¨, ²¨¡μ ´ ʸ±μ·¨É¥²ÖÌ. ‚ Éμ ¦¥ ¢·¥³Ö ·Ö¤ § ±μ´μ³¥·´μ¸É¥° ³μ¦´μ ¢ÒÖ¢¨ÉÓ ¢ Ô±¸¶¥·¨³¥´É Ì in vitro ¸ ¶μ³μÐÓÕ Ê²ÓÉ· Ë¨μ²¥Éμ¢μ£μ (“”) ¨§²ÊÎ¥´¨Ö. ¨μ˨§¨Î¥¸±¨³ μ¡μ¸´μ¢ ´¨¥³ ÔÉμ£μ Ö¢²Ö¥É¸Ö Éμ, ÎÉμ ¤¥°¸É¢¨¥ “”-¨§²ÊÎ¥´¨Ö ´ ±·μ¢Ó, É ± ¦¥ ± ± ¨ ¨μ´¨§¨·ÊÕÐ¥£μ ¨§²ÊÎ¥´¨Ö, ¢Ò§Ò¢ ¥É μ¡· §μ¢ ´¨¥ ±É¨¢´ÒÌ Ëμ·³ ±¨¸²μ·μ¤ (”Š) ¨ ʸ¨²¥´¨¥ 챨¸²¨É¥²Ó´ÒÌ ¶·μÍ¥¸¸μ¢ ± ± ¢ ³μ²¥±Ê² Ì £¥³μ£²μ¡¨´ , É ± ¨ ¢ ³μ²¥±Ê² Ì ³¥³¡· ´ ±· ¸´ÒÌ ±²¥Éμ± ±·μ¢¨ [9]. μÔÉμ³Ê “”-¨§²ÊÎ¥´¨¥ Ö¢²Ö¥É¸Ö ¤¥±¢ É´μ° ²ÓÉ¥·´ ɨ¢μ° γ-¨§²ÊÎ¥´¨Ö ± ± ¢ ±²¨´¨Î¥¸±¨Ì ¸²ÊÎ ÖÌ, É ± ¨ ¢ ¨¸¸²¥¤μ¢ ´¨ÖÌ in vitro [1, 11Ä13]. ¨μ²μ£¨Î¥¸±¨¥ ¶μ¸²¥¤¸É¢¨Ö ¢ Ô·¨É·μÍ¨É Ì ¶μ¸²¥ ¢μ§¤¥°¸É¢¨Ö “”-¨§²ÊÎ¥´¨Ö ¸ ¤²¨´μ° ¢μ²´Ò λ = 254 ´³ ¢μ ³´μ£μ³ ¡²¨§±¨ ÔËË¥±É ³ ¶·¨ ¢μ§¤¥°¸É¢¨¨ γ-¨§²ÊÎ¥´¨Ö [8, 11]. ¥·¸¶¥±É¨¢´Ò³ ³¥Éμ¤μ³ ¨§ÊÎ¥´¨Ö Éμ¶μ²μ£¨¨ ³¥³¡· ´ ¶·¨ ²Õ¡ÒÌ ¢¨¤ Ì ¢μ§¤¥°¸É¢¨° Ö¢²Ö¥É¸Ö Éμ³´ Ö ¸¨²μ¢ Ö ³¨±·μ¸±μ¶¨Ö (‘Œ) [14Ä18]. ‘Œ ¶μ§¢μ²Ö¥É ·¥£¨¸É·¨·μ¢ ÉÓ · §³¥·Ò ¡¨μ²μ£¨Î¥¸±¨Ì ¸É·Ê±ÉÊ· ¤μ 0,1 ´³. Œ¥Éμ¤μ³ ‘Œ ¡Ò²μ ¶μ± § ´μ, ÎÉμ ¨³¥´´μ ²μ± ²Ó´Ò¥ ¨§³¥´¥´¨Ö ´ ´μ¸É·Ê±ÉÊ·Ò ³¥³¡· ´Ò Ö¢²ÖÕÉ¸Ö ¶Ê¸±μ¢Ò³ ³¥Ì ´¨§³μ³ ¨§³¥´¥´¨Ö Ëμ·³ ±· ¸´ÒÌ ±²¥Éμ± ±·μ¢¨ ¶·¨ ¤²¨É¥²Ó´μ³ Ì· ´¥´¨¨ ¤μ´μ·¸±μ° ±·μ¢¨, ¶·¨ ¨´Éμ±¸¨± ͨ¨, ¶·¨ ³ ¸¸¨¢´μ° ±·μ¢μ¶μÉ¥·¥ [16, 17, 19Ä21]. ‘Œ ³μ¦¥É ¡ÒÉÓ ¨¸¶μ²Ó§μ¢ ´ ± ± ÔËË¥±É¨¢´Ò° ³¥Éμ¤ ´ ²¨§ ´ ´μ¸É·Ê±ÉÊ·Ò ³¥³¡· ´ ±²¥Éμ± ±·μ¢¨ ¶μ¸²¥ ¤¥°¸É¢¨Ö ¨μ´¨§¨·ÊÕÐ¥£μ ¨§²ÊÎ¥´¨Ö ¢ · ¤¨μ¡¨μ²μ£¨¨ ¨ Ö¤¥·´μ° ³¥¤¨Í¨´¥. –¥²ÓÕ · ¡μÉÒ Ö¢²Ö¥É¸Ö ¨§ÊÎ¥´¨¥ ²μ± ²Ó´ÒÌ Éμ¶μ²μ£¨Î¥¸±¨Ì ¤¥Ë¥±Éμ¢ ³¥³¡· ´ Ô·¨É·μͨÉμ¢, ¢μ§´¨± ÕÐ¨Ì ¢ ·¥§Ê²ÓÉ É¥ ¤¥°¸É¢¨Ö “”-¨§²ÊÎ¥´¨Ö ´ ±·μ¢Ó, in vitro. Œ’…ˆ‹› ˆ Œ…’„› ¶ÒÉÒ ¶·μ¢μ¤¨²¨¸Ó ¶μ ¸Ì¥³¥, ¶·¥¤¸É ¢²¥´´μ° ´ ·¨¸. 1. 1. ‡ ¡μ· ±·μ¢¨ ¶·μ¨§¢μ¤¨²¨ ¢ ³¨±·μ¢¥ÉÉÒ ¸ „’ (®Sarstedt AG and Co.¯, ƒ¥·³ ´¨Ö) ¢μ ¢·¥³Ö ¶·μ˨² ±É¨Î¥¸±μ£μ μ¸³μÉ· Ê Î¥ÉÒ·¥Ì ¤μ´μ·μ¢ ³Ê¦¸±μ£μ ¶μ² 27Ä34 ²¥É. ‚ ¨¸¸²¥¤μ¢ ´¨¨ ¨¸¶μ²Ó§μ¢ ²¨¸Ó £·Ê¶¶Ò ±·μ¢¨ 0, , ‚ ¨ ‚. ‚ ¸μμÉ¢¥É¸É¢¨¨ ¸ É·¥¡μ¢ ´¨Ö³¨ ÔɨΥ¸±μ£μ ±μ³¨É¥É ˆˆ μ¡Ð¥° ·¥ ´¨³ Éμ²μ£¨¨ ¨³. ‚. . ¥£μ¢¸±μ£μ Œ ¡Ò²μ ¶μ²ÊÎ¥´μ ¸μ£² ¸¨¥ ¢¸¥Ì ¤μ´μ·μ¢ ´ ¶·μ¢¥¤¥´¨¥ ¨¸¸²¥¤μ¢ ´¨°. 2. –¥²Ó´ Ö ±·μ¢Ó ¸ÊÐ¥¸É¢¥´´μ ¶μ£²μÐ ¥É “”-¨§²ÊÎ¥´¨¥ ¸ ¤²¨´μ° ¢μ²´Ò λ = 254 ´³. „²Ö μ¡¥¸¶¥Î¥´¨Ö μ¤´μ·μ¤´μ¸É¨ μ¡²ÊÎ¥´¨Ö Ô·¨É·μͨÉμ¢ ¶μ ¢¸¥³Ê μ¡Ñ¥³Ê (10 ³²) Í¥²Ó´ Ö ±·μ¢Ó · §¡ ¢²Ö² ¸Ó ¢ Ëμ¸Ë É´μ³ ¡ÊË¥·¥ (PBS · 7,4) ¤μ £¥³ Éμ±·¨É 0,013. „²Ö ÔÉμ£μ ¢ ³¥¤¨Í¨´¸±¨¥ ¶² ¸É¨±μ¢Ò¥ ±Õ¢¥ÉÒ ´ ²¨¢ ²¨ 24 ³² ¡ÊË¥·´μ£μ · ¸É¢μ· ¨ ¤μ¡ ¢²Ö²¨ 222 Šμ§²μ¢ …. Š. ¨ ¤·. ¨¸. 1. ‘Ì¥³ Ô±¸¶¥·¨³¥´É : 1 Å ¶·¨£μÉμ¢²¥´¨¥ ¸Ê¸¶¥´§¨¨ Ô·¨É·μͨÉμ¢; 2 Å ¢μ§¤¥°¸É¢¨¥ “”¨§²ÊÎ¥´¨Ö; 3 Šͥ´É·¨ËÊ£¨·μ¢ ´¨¥; 4 Å ¶·¨£μÉμ¢²¥´¨¥ ³ §±μ¢ Ô·¨É·μͨÉμ¢; 5 Å Éμ³´ Ö ¸¨²μ¢ Ö ³¨±·μ¸±μ¶¨Ö; 6 Å ´ ²¨§ ´ ´μ¸É·Ê±ÉÊ·Ò ³¥³¡· ´; 7 Å ¨§³¥·¥´¨¥ ±μ´Í¥´É· ͨ¨ ¨μ´μ¢ ¢´¥±²¥Éμδμ£μ ± ²¨Ö 800 ³±² Í¥²Ó´μ° ±·μ¢¨ (£¥³ Éμ±·¨É 0,4). ‚ ·¥§Ê²ÓÉ É¥ £¥³ Éμ±·¨É ¸Ê¸¶¥´§¨¨ ¡Ò² 0,013. ˆ§ ¶μ²ÊÎ¥´´μ° ¸Ê¸¶¥´§¨¨ Ô·¨É·μͨÉμ¢ 12 ³² μ¸É ¢²Ö²¨ ¡¥§ μ¡²ÊÎ¥´¨Ö (±μ´É·μ²Ó). „·Ê£¨¥ 12 ³² ¸Ê¸¶¥´§¨¨ Ô·¨É·μͨÉμ¢ μ¡²ÊÎ ²¨ “”-¨§²ÊÎ¥´¨¥³ in vitro. ‚·¥³Ö Ì· ´¥´¨Ö ¸Ê¸¶¥´§¨¨ 1 Î. ‚ ± Î¥¸É¢¥ ¨¸Éμ䨱 ʲÓÉ· Ë¨μ²¥Éμ¢μ£μ ¨§²ÊÎ¥´¨Ö ¨¸¶μ²Ó§μ¢ ²¸Ö ʲÓÉ· Ë¨μ²¥Éμ¢Ò° μ¡²ÊΠɥ²Ó (“¶-3-3 Å Š’, μ¸¸¨Ö). „²¨´ ¢μ²´Ò ¨§²ÊÎ¥´¨Ö λ = 254 ´³, Ô´¥·£¨Ö ËμÉμ´ E = 4,8 Ô‚, ¡ ±É¥·¨Í¨¤´Ò° ¶μÉμ± ² ³¶Ò Φ = 4,8 ‚É. ²μÐ ¤Ó μ¡²ÊÎ ¥³μ° ¶μ¢¥·Ì´μ¸É¨ ¸Ê¸¶¥´§¨¨ ¢ ±Õ¢¥É¥ S = 12 ¸³2 . Í¥´±Ê ¶μ£²μÐ¥´´μ° ¤μ§Ò ¶·¨ ¤¥°¸É¢¨¨ “”-¨§²ÊÎ¥´¨Ö ´ ¸Ê¸¶¥´§¨Õ Ô·¨É·μͨÉμ¢ ¶·μ¢μ¤¨²¨ ¸ ¶μ³μÐÓÕ ¤μ§¨³¥É· ”·¨±±¥ [22]. Œ¥·μ° ¶μ£²μÐ¥´´μ° ¤μ§Ò ¸²Ê¦¨² ±μ´Í¥´É· ꬅ ¸μ²¨ É·¥Ì¢ ²¥´É´μ£μ ¦¥²¥§ Fe3+ , ¢ ±μÉμ·ÊÕ ¶·¨ μ¡²ÊÎ¥´¨¨ ¢μ¤´μ£μ · ¸É¢μ· ¶¥·¥Ì줨² ¸μ²Ó ¤¢ÊÌ¢ ²¥´É´μ£μ ¦¥²¥§ Fe2+ ¶μ¤ ¤¥°¸É¢¨¥³ ’ ¡²¨Í 1. „μ§Ò ¤²Ö · §²¨Î¶·μ¤Ê±Éμ¢ · ¤¨μ²¨§ ¢μ¤Ò. Šμ´Í¥´É· Í¨Õ ¸μ²¨ É·¥Ì¢ ´ÒÌ ¢·¥³¥´ μ¡²ÊÎ¥´¨Ö ²¥´É´μ£μ ¦¥²¥§ ¨§³¥·Ö²¨ ¸ ¶μ³μÐÓÕ ¸¶¥±É·μËμÉμ³¥É·¨Î¥‚·¥³Ö μ¡²ÊÎ¥´¨Ö, „μ§ , ¸±μ£μ ³¥Éμ¤ ´ ¤²¨´¥ ¢μ²´Ò λ = 304 ´³ (¸¶¥±É·μËμÉμ³¥É· ³¨´ μÉ´. ¥¤. 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