1) microvitellogenin
微卵黄生成素,微卵黄原蛋白
2) vitellogenin
[vi,teləu'dʒenin]
卵黄生成素,卵黄原蛋白
3) VTG
卵黄蛋白原
1.
Studies on the Correlation between Serum VTG and Serum Calcium of Juvenile Carassius auratus after Exposure to E_2;
E_2诱导的鲫鱼(Carassius auratus)幼鱼血清中卵黄蛋白原和钙含量相关性研究
2.
5 mg/L,1 mg/L,5 mg/L and 10 mg/L respectively;the growth condition,Vtg synthesis and EROD activities of the zebra fish were detected.
0mg/L)对斑马鱼的生长、体内卵黄蛋白原(Vtg)含量及肝脏7-乙氧基-3-异吩口恶唑酮-脱乙基酶(EROD)酶活力的影响。
3.
Egg yolk cholesterol mainly come from yolk precursor-very low density lipoprotein(VLDL)and vitelline(VTG).
蛋黄胆固醇主要来源于肝脏合成的蛋黄前体—极低密度脂蛋白(VLDL)和卵黄蛋白原(VTG) ,蛋黄胆固醇含量主要取决于VLDL进入卵母细胞的数量。
4) Vitellogenin
[vi,teləu'dʒenin]
卵黄蛋白原
1.
Effects of 17β-estradiol on Vitellogenin Inducement and Gonad Development in Male Tanichthys albonubes;
17β-雌二醇对雄性唐鱼卵黄蛋白原的诱导及性腺发育的影响
2.
Induction of Vitellogenin by 17-Estradiol in Swordtail Fish (Xiphophorus helleri);
17β-雌二醇对剑尾鱼卵黄蛋白原的诱导研究
3.
Development of ELISA for detecting Carassius auratus vitellogenin.;
鲫鱼(Carassius auratus)卵黄蛋白原的ELISA检测
5) Vitellogenin
[vi,teləu'dʒenin]
卵黄原蛋白
1.
Cloning and Analysis of 3′end cDNA Sequence of Vitellogenin From Actias selene Hübner;
柳蚕卵黄原蛋白(Vg)cDNA3′端的克隆及序列分析
2.
Characterization of the Primary Structures of Vitellogenins From the Silk Insects;
绢丝昆虫卵黄原蛋白一级结构的特性分析
3.
Temporal patterns of vitellogenin synthesis and uptake as well as vitellin degradation in Nasonia vitripennis(Hymenoptera: Pteromalidae).;
丽蝇蛹集金小蜂卵黄原蛋白合成与摄取及卵黄磷蛋白降解的时间动态
6) Yolk protein
卵黄蛋白
1.
Research progress on biochemical character of yolk protein and synthesis sites of vitellogenin in penaeid shrimp;
对虾卵黄蛋白的生化性质及卵黄蛋白原合成部位的研究进展
2.
Detection and immunological relationship of yolk proteins from different parasitoid wasps
不同类群寄生蜂卵黄蛋白的检测和免疫相关性分析
3.
At present only the yolk protein of Huso huso♀×Acipenser ruthenus ♂ and Acipenser transmontanus had been studied in all of Acipenser.
采用凝胶柱层析法,对小体鲟(Acipenser ruthenusLinnaeus)卵黄蛋白粗提液进行分离纯化。
补充资料:纤维蛋白(纤维蛋白原)降解产物
纤维蛋白(纤维蛋白原)降解产物
fibrinfibrinogendegradation product,FDP
血中纤维蛋白/纤维蛋白原在纤维蛋白溶酶作用下裂解所产生的碎片。纤维蛋白溶酶通过精氨酸?赖氨酸肽链的裂解作用使Aα链及Bβ链裂解,纤维蛋白原的降解产物有:X、Y、D、E及Aα链羧基端附属物(A、B、C碎片);交联性纤维蛋白的降解产物有X、Y、D、E、D=聚体,及DD/E、DY/YD、YY/DXD复合物,这些碎电流称为FDP。FDP有抗凝血酶及抗血小板聚集作用,在生理情况下可防止微循环内血栓形成
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条