高师理科学刊
高師理科學刊
고사이과학간
JOURNAL OF SCIENCE OF TEACHERS' COLLEGE AND UNIVERSITY
2013年
2期
68-71
,共4页
黄芩%单细胞克隆%愈伤组织%黄芩苷%拟合曲线
黃芩%單細胞剋隆%愈傷組織%黃芩苷%擬閤麯線
황금%단세포극륭%유상조직%황금감%의합곡선
Radix Scutellariae%single-cell clone%callus%Baicalin%fitting curve
以黄芩普通愈伤组织为对照(CK),6个高产单细胞克隆愈伤组织(HQSC)为实验材料,综合运用紫外分光光度法、滴定比容法、动态跟踪法、多项式方程拟合等原理和方法,测定和分析了29 d培养期内,HQSC黄芩苷的最佳萃取时间,并对黄芩苷质量分数的动态变化进行了分析.结果表明,HQSC不同,黄芩苷质量分数不同,其中HQSC-4S号黄芩苷质量分数最高为6.20%,对照组质量分数最低为3.73%.黄芩苷动态拟合曲线,呈非对称“M”形、非对称“U”形和对称“U”形三种变化特征.为深入探索黄芩苷积累调控机制和黄芩高产HQSC的生理代谢人工调控机制研究提供参考.
以黃芩普通愈傷組織為對照(CK),6箇高產單細胞剋隆愈傷組織(HQSC)為實驗材料,綜閤運用紫外分光光度法、滴定比容法、動態跟蹤法、多項式方程擬閤等原理和方法,測定和分析瞭29 d培養期內,HQSC黃芩苷的最佳萃取時間,併對黃芩苷質量分數的動態變化進行瞭分析.結果錶明,HQSC不同,黃芩苷質量分數不同,其中HQSC-4S號黃芩苷質量分數最高為6.20%,對照組質量分數最低為3.73%.黃芩苷動態擬閤麯線,呈非對稱“M”形、非對稱“U”形和對稱“U”形三種變化特徵.為深入探索黃芩苷積纍調控機製和黃芩高產HQSC的生理代謝人工調控機製研究提供參攷.
이황금보통유상조직위대조(CK),6개고산단세포극륭유상조직(HQSC)위실험재료,종합운용자외분광광도법、적정비용법、동태근종법、다항식방정의합등원리화방법,측정화분석료29 d배양기내,HQSC황금감적최가췌취시간,병대황금감질량분수적동태변화진행료분석.결과표명,HQSC불동,황금감질량분수불동,기중HQSC-4S호황금감질량분수최고위6.20%,대조조질량분수최저위3.73%.황금감동태의합곡선,정비대칭“M”형、비대칭“U”형화대칭“U”형삼충변화특정.위심입탐색황금감적루조공궤제화황금고산HQSC적생리대사인공조공궤제연구제공삼고.
Parents of scutellaria callus as control(CK),the six high yield of the single cell clone of Radix Scutellariae callus(HQSC) were experimental material.The integrated use of ultraviolet spectrophotometry,titration than the solution method,dynamic tracking method,polynomial equation fitting of methods and principles,the best extraction time of the baicalin(Bai)was determined and analysed for 29 d incubation period.And the mass fraction of baicalin dynamic changes were analyzed.The results show that the baicalin mass fraction different of different single cell cloning callus.In which the highest contain of baicalin was the HQSC-4S,the mean up to 6.20%.The lowest contain of baicalin was HQSC-0,the mean up to 3.73%.Three kinds of variation characteristics were presented of asymmetric"M"shaped,asymmetric"U"-shaped and symmetrical"U"-shaped.This study for exploring baicalin accumulation regulation mechanism study and high yield HQSC physiological metabolism artificial regulation mechanism study of Radix Scutellariae provides reference.