1) In vitro selection
离体筛选
1.
In vitro selection and identification of drought-resistant variants of Agrostis stolonifera L-93;
匐匍翦股颖L-93抗旱变异体的离体筛选与鉴定
2.
In vitro selection of drought-tolerant mutants of sweetpotato cv.
以甘薯品种栗子香为材料 ,用PEG6 0 0 0作为耐旱性突变体离体筛选的选择剂 ,将栗子香胚性悬浮细胞培养在含有 0~ 35 % (w/v)PEG6 0 0 0和 2 。
3.
Using a multistep selection procedure and repeated in vitro selection, 17 drought-tolerant calli were obtained .
以甘薯品种“栗子香”的胚性悬浮细胞为材料,用PEG6000和NaCl分别作为耐旱性和耐盐性选择剂,对甘薯耐旱、耐盐突变体离体筛选的适宜选择压和筛选方法进行研究。
2) in vitro screening
离体筛选
1.
In vitro screening of resistant mutants of eggplant to Verticillium daliae was studied with Verticillium daliae toxin and tissue culture technology.
以茄子黄萎病菌毒素为选择剂,结合组织培养技术,离体筛选茄子抗黄萎病突变体,开拓一条体细胞抗病育种的新途径。
2.
In this research, we established an in vitro screening procedure for thermotolerant variants with six varieties of Gerbera including Lilabella(F3), Diablo(F25), Vino(F30), Sangria(F32), Pinkas(F39) and No.
本实验以Lilabella(F3)、Diablo(F25)、Vino(F30)、Sangria(F32)、Pinkas(F39)及深圳五号(S5)等六个非洲菊品种为材料,建立了非洲菊耐热变异的离体筛选体系;探讨了~(60)Co γ射线与EMS、PYM化学诱变处理对离体培养的影响和筛选耐热变异的可能性;确定了再生植株诱导与增殖过程中羟脯氨酸适宜的筛选剂量,并在此基础上开展了非洲菊抗羟脯氨酸变异系的筛选;初步分析了耐热和耐羟脯氨酸筛选获得的三个初选系在高温下耐热表现。
3.
In vitro screening stem rot resistant (tolerant) materials in Brassica napus L;
结果表明 ,用于离体筛选种子的辐照剂量以 40~ 12 0Krad为宜 ;用草酸处理60 Co -γ射线照射种子产生的试管苗 (一轮草酸筛选 ) ,或用草酸处理辐照种子及种子产生的试管苗 (两轮草酸筛选 ) ,获得 49株抗草酸小苗 ;未经辐射处理的种子均未筛选出抗草酸小苗。
3) Selection in vitro
离体筛选
1.
Study on selection in vitro of the mutants with Fusarium wilt resistance in chieh-qua;
节瓜抗枯萎病变异体离体筛选研究初报
2.
Progress on the selection in vitro and test of resistant mutant on the plants;
植物抗性突变体离体筛选和鉴定研究进展
4) Isolation
[英][,aɪsə'leɪʃn] [美]['aɪsə'leʃən]
分离筛选
1.
Isolation Strains for Biological Treatment of Refining Residue of L-lactic Acid;
L—乳酸精制残留液生物处理微生物菌种的分离筛选
5) screening
[英]['skri:nɪŋ] [美]['skrinɪŋ]
分离筛选
1.
After the primary isolation and secondary screening,2 strains named YS-19 and YS-40 with high transglucosylation potential were obtained.
根据环麦芽糊精葡聚糖转移酶(CGTase)催化淀粉和糊精生成环状糊精(CD),环状糊精可以吸附筛选培养基中的刚果红和甲基橙使菌落周围形成透明圈,且透明圈越大,透明度越好,CGTase的转糖基活性越高的酶催化特性,设计筛选模版,进行产酶菌株分离筛选。
补充资料:离体活化分析
分子式:
CAS号:
性质:与体内活化分析相反,系指对生物活体进行取样(例如脏器、体液等),然后进行分析的活化方法。
CAS号:
性质:与体内活化分析相反,系指对生物活体进行取样(例如脏器、体液等),然后进行分析的活化方法。
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