秋水仙素诱变对桑黄菌丝生长及活性成分的影响     

杨佳乐  范桂枝  张李香 《北方园艺》2021,(7):110-116

以1.0%纤维素酶和0.5%蜗牛酶不同处理时间的桑黄菌丝为试材,采用0.1%秋水仙素诱变桑黄菌丝研究其诱变下桑黄菌丝再生菌株的生长速率以及多糖、黄酮和三萜等活性成分含量变化,以期获得生长快且活性成分含量高的菌种,以期为桑黄菌株选育、种质资源创新和应用奠定基础。结果表明:秋水仙素诱变后桑黄菌丝再生菌株的生长速率以及多糖、黄酮和三萜等活性成分含量基本呈增加趋势。其中,与对照相比,诱变酶解桑黄菌丝20 min获得的再生菌株20-1生长速率最快,增加了366.67%;三萜和多糖含量最高的再生菌株为10-5,分别增加了1069.73%和281.85%;多酚含量最高的再生菌株为5-1,增加了530.56%;黄酮含量最高的再生菌株为30-1,增加了3771.43%。  相似文献   

马铃薯原生质体培养体系改良   总被引：7，自引：1，他引：7  

周宇波  谢从华等 《华中农业大学学报》2001,20(5):469-473

试验以马铃薯试管苗叶片为原生质体来源，通过研究材料预处理方法对原生质体产量和质量的影响，培养方式及培养基中糖醇与细胞分裂的愈伤组织形成的关系，优化并建立了高效稳定的原生质体培养体系，获得了2个双单倍体系的叶肉原生质体再生植株。  相似文献   

The Prospects of Tissue Culture and Genetic Engineering for Strawberry Improvement     

S. Mohan Jain  Eija Pehu 《Acta Agriculturae Scandinavica, Section B - Plant Soil Science》2013,63(3):133-139

Abstract

Strawberry shoot meristem cultures have been used for producing virus-free strawberry plants. Plantlet regneration from leaf mesophyll protoplasts, and Agrobacterium tumefaciens mediated genetic transformation, mark the beginning of strawberry improvement with biotechnologies. The use of biotechnological tools has a greater potential in producing strawberry plants with traits such as early maturation, frost and disease resistance, mite and nematode resistance, high yield, better quality, suitability for mechanical harvesting, shipping ability, ellgaic acid content, aroma compounds and cost-effective micropropagation. Gene identification and mapping with RFLPs or RAPDs would be desirable. Transgenic strawberries should be tested for their quality before releasing to the consumers.  相似文献   

Regeneration and molecular characterization of interspecific somatic hybrids between Satsuma mandarin and two seedy sweet oranges for scion improvement     

X. D. Cai  W. W. Guo 《Plant Breeding》2011,130(2):287-290

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杉木悬浮细胞系的建立和原生质体的分离^*   总被引：2，自引：1，他引：2       下载免费PDF全文

诸葛强  阙国宁 《林业科学研究》1992,5(6):628-632

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黄竹细胞悬浮培养和原生质体分离^*   总被引：8，自引：2，他引：8       下载免费PDF全文

阙国宁  诸葛强 《林业科学研究》1994,7(1):44-47

以牡竹属黄竹（ＤｅｎｄｒｏｃａｌａｍｕｓｍｅｍｂｒａｎｃｅｕｓＭｕｎｒｏ）的竹节及无菌苗根颈为外植体，培养于含有５ｍｇ／Ｌ２，４－Ｄ、０．２ｍｇ／ＬＫＴ和２００ｍｇ／ＬＬＨ的ＭＳ培养基上诱导愈伤组织，然后移至相同成份或不同浓度２，４－Ｄ的液体培养基中，进行悬浮培养，以建立分散性良好的悬浮细胞系。利用悬浮细胞和无菌苗叶片经酶解获大量原生质体，其产量分别约为每克鲜重２．５×１０５个和５×１０５个，活力均可达８０％。  相似文献   

Plantlet regeneration from leaf protoplasts ofPopulus euphratica     

Jae-Myung Kang  Katsumi Kojima  Yuji Ide  Satohiko Sasaki 《Journal of Forest Research》1996,1(2):99-102

Protoplasts were isolated from the leaves of sterile plants ofPopulus euphratica Oliv. by using 1% Cellulase “Onozuka” RS and 0.25% Pectolyase Y-23 in 0.6m of mannitol solution. Protoplasts were cultured in modified Murashige and Skoog's (MS) medium which contained no ammonium ions but was supplemented with BAP (6-benzylaminopurine), 2,4-D (2,4- dichlorophenoxy-acetic acid), and 1% sucrose at the cell density of 9×10⁴/ml. Cell divisions occurred in every culture medium, especially in the medium containing 0.5 mg/l of BAP and 0.1 mg/l of 2,4-D, in which callus was successfully induced by successive culture through cell cluster formation. Shoots were regenerated from the callus, and their growth was enhanced on 1/2 MS medium containing 0.8 mg/l of BAP. Finally, shoots were rooted and plantlets were regenerated on 1/2 MS medium without a hormone. A part of this paper was presented at the 106th Annual Meeting of the Jpn. For. Soc. (1995).  相似文献   

八仙花萼片有色原生质体游离及应用     

张盖天  祁惠  杨锁宁  褚志云  袁素霞  刘春 《中国农业科技导报》2022,24(9):50-57

为建立八仙花（Hydrangea macrophylla）有色原生质体游离体系,以八仙花萼片为试验材料,分别对材料的预处理方式、酶液组分、酶解时间、纯化离心力等影响酶解的关键因素进行研究。结果表明, 预处理方式选择分离花萼片上下表皮法,纤维素酶和离析酶水平分别为4%和0.4%（质量体积分数）,甘露醇0.6 mol·L^-1,酶解液加热冷却后加入 0.1%（质量体积分数）BSA和10 mmol·L^-1 CaCl₂,酶解2 h,低温离心机4 ℃、1 426 r·min^-1离心5 min,为最优的八仙花萼片原生质体游离条件。利用所建的原生质体游离体系对4个不同品种的八仙花萼片进行有色原生质体游离,200× 镜下单视野内可获得13~35个有色的原生质体;对有色原生质体进行液泡的H⁺流测定,发现蓝色液泡较粉色液泡H⁺流的外排趋势明显,说明同一八仙花品种蓝色液泡的pH高于粉色液泡。  相似文献   

捕食性真菌Duddingtonia flagrans原生质体的快速制备与再生     

李军燕  ;杨晓野  ;王瑞  ;杨莲茹  ;张伟  ;罗晓平  ;范永生 《兽医大学学报》2014,(7):1089-1093

为快速获得大量捕食性真菌Duddingtonia flagrans原生质体并使其再生,本试验研究了酶质量浓度、酶解温度、菌龄、酶解时间对D.flagrans原生质体产生的影响,以确定D.flagrans原生质体最佳快速制备条件。结果表明,在溶壁酶2mL/L、蜗牛酶8g/L、纤维素酶8g/L时,35℃恒温条件下,酶解菌龄为2d的菌丝7h,捕食性真菌D.flagrans产生原生质体数量最多且能够再生。这为下一步转化并标记和克隆捕食性相关基因奠定了重要基础。  相似文献   

Changes induced by osmotic stress in the morphology,biochemistry, physiology,anatomy and stomatal parameters of almond species （Prunus L. spp.） grown in vitro     

Shakiba Rajabpoor  ;Soghra Kiani  ;Karim Sorkheh  ;Farahnaz Tavakoli 《林业研究》2014,25(3):523-534

We investigated the influence of different levels of osmotic stress on growth and development in selected wild almond species(eight Prunus spp.) grown in vitro. The study, while endorsing the efficacy of in vitro screening of auxiliary buds of wild almond for osmotic stress tolerance, showed species variability in its response to osmotic stress. Osmotic stress reduced growth and development of all the species. However, the putative tolerant Prunus spp. showed better performance than the putative susceptible genotypes. On average there was an 80% decrease in shoot dry weight at-1.2 MPa. Reduction in shoot weight was more common in osmotic stress-susceptible species in the section labeled ‘Euamygdalus'. The tolerant Prunus species produced smaller changes in biochemical responses than the sensitive cultivars for malondialdehyde content, catalase activity, relative permeability of protoplast membranes, and net photosynthetic rate. The tolerant species maintained cell integrity better than drought sensitive species. Wild almond species in the section labeled ‘Spartioides'(Prunus arabica(Olivier) Neikle, Prunus glauca (Browicz) A.E. Murray, Prunus scoparia Spach) and ‘Lycioides'(Prunus lycioides Spach, Prunus reuteri Bossi. et Bushe) were best adapted to osmotic stress. Increase in chlorophyll concentration and leaf thickness under high osmotic stress can be considered as preliminary selection parameters for osmotic stress tolerance in Prunus spp. The study confirmed the efficacy of the in vitro method for screening of large number of genotypes for osmotic stress tolerance in wild almond species.  相似文献