光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2014年
4期
879-883
,共5页
叶志鹏%李鑫%羊梦诗%陈亮%徐灿%储修祥
葉誌鵬%李鑫%羊夢詩%陳亮%徐燦%儲脩祥
협지붕%리흠%양몽시%진량%서찬%저수상
甘氨酸直链寡肽%振动光谱%尺寸效应%各向异性%耦合效应
甘氨痠直鏈寡肽%振動光譜%呎吋效應%各嚮異性%耦閤效應
감안산직련과태%진동광보%척촌효응%각향이성%우합효응
Glycine oligopeptides straight chain%Vibrational spectroscopy%Size effect%Anisotropic%Coupling effect
运用密度泛函理论,在6-31G (d )基组水平上对甘氨酸直链寡肽进行几何优化,并对其几何结构、平均结合能、振动频率进行计算。结果表明,平均结合能随着肽链增加单调变化,并趋于稳定;寡肽链键长的分析发现,链向与径向方向上变化趋势相反,存在各向异性。红外光谱的分析发现,位于肽键上同一基团的伸缩振动与弯曲振动分别发生红移和蓝移,并存在各向异性。这些现象源于:准一维的纳米结构导致了键长的各向异性;相同基团之间的诱导效应、耦合效应及氢键等因素导致了振动频率的红移和蓝移等现象。我们得出结论:甘氨酸直链寡肽链的生长利于结构的稳定性,在能量上,推测出寡肽链有自组装生长的趋势;在寡肽链的生长过程中,通过构象和光谱的现象,推断其物理化学属性存在尺寸效应。肽链端部基团的物理化学属性非常稳定,基本不受寡肽链长度的影响。该结果对应用红外光谱测量寡肽链的残基数及长度、特殊功能寡肽链的制备等工作具有指导意义。
運用密度汎函理論,在6-31G (d )基組水平上對甘氨痠直鏈寡肽進行幾何優化,併對其幾何結構、平均結閤能、振動頻率進行計算。結果錶明,平均結閤能隨著肽鏈增加單調變化,併趨于穩定;寡肽鏈鍵長的分析髮現,鏈嚮與徑嚮方嚮上變化趨勢相反,存在各嚮異性。紅外光譜的分析髮現,位于肽鍵上同一基糰的伸縮振動與彎麯振動分彆髮生紅移和藍移,併存在各嚮異性。這些現象源于:準一維的納米結構導緻瞭鍵長的各嚮異性;相同基糰之間的誘導效應、耦閤效應及氫鍵等因素導緻瞭振動頻率的紅移和藍移等現象。我們得齣結論:甘氨痠直鏈寡肽鏈的生長利于結構的穩定性,在能量上,推測齣寡肽鏈有自組裝生長的趨勢;在寡肽鏈的生長過程中,通過構象和光譜的現象,推斷其物理化學屬性存在呎吋效應。肽鏈耑部基糰的物理化學屬性非常穩定,基本不受寡肽鏈長度的影響。該結果對應用紅外光譜測量寡肽鏈的殘基數及長度、特殊功能寡肽鏈的製備等工作具有指導意義。
운용밀도범함이론,재6-31G (d )기조수평상대감안산직련과태진행궤하우화,병대기궤하결구、평균결합능、진동빈솔진행계산。결과표명,평균결합능수착태련증가단조변화,병추우은정;과태련건장적분석발현,련향여경향방향상변화추세상반,존재각향이성。홍외광보적분석발현,위우태건상동일기단적신축진동여만곡진동분별발생홍이화람이,병존재각향이성。저사현상원우:준일유적납미결구도치료건장적각향이성;상동기단지간적유도효응、우합효응급경건등인소도치료진동빈솔적홍이화람이등현상。아문득출결론:감안산직련과태련적생장리우결구적은정성,재능량상,추측출과태련유자조장생장적추세;재과태련적생장과정중,통과구상화광보적현상,추단기물이화학속성존재척촌효응。태련단부기단적물이화학속성비상은정,기본불수과태련장도적영향。해결과대응용홍외광보측량과태련적잔기수급장도、특수공능과태련적제비등공작구유지도의의。
By using the density functional theory ,glycine linear oligopeptide of different lengths was geometrically optimized on the 6-31G (d) basis set level ,their growth processes were simulated ,and the average binding energy and vibration frequency were calculated with geometry .The results showed that the average binding energies tend to change in a regular pattern and sta-bilize with the number of residues increasing ;With the oligopeptide chain bond length analysis it was found that the chain to the radial direction there is a opposite trend for chain and radial direction ,which is anisotropic .It was found by the IR spectrum a-nalysis that red shifts and blue shifts occur respectively when the same group of peptide bond vibrate ,which is anisotropic;These phenomena originate from that quasi one-dimensional nanostructures lead to the anisotropy of the bond length ;the induced effects ,coupling effects and hydrogen bonding etc .between the same groups lead to the vibration frequency red shifts and blue shifts .The authors conclude that the growth of glycine linear oligopeptide is conducive to stability of the structure ,and the au-thors infer that the oligopeptide has the tendency of self-assembled growth ;Through the conformation and spectrum ,the authors infer that there is a size effect in physical and chemical properties .The physical and chemical properties of peptide chain end group are extremely stable and unaffected by the impact of the oligopeptide chain length .The results are significant to measuring the length and the number of residue of peptide ,and to manufacturing the special features oligopeptide chain .