甜叶菊栽培研究进展

通过对品种、茬口、栽培措施及光照要求等方面的研究文献进行综述，归纳了目前甜叶菊栽培方面的研究动态和存在的问题，为今后甜叶菊的栽培研究提供参考。     

一个潜在催化莱鲍迪D苷合成的新型糖基转移酶

尿苷二磷酸糖基转移酶(uridine diphosphate glycosyltransferases,UGTs)催化糖基转移反应,与植物次生代谢密切相关。本研究根据甜叶菊(Stevia rebaudiana)转录组数据库,克隆到一个催化莱鲍迪D苷(rebaudioside D,RD)合成的新型糖基转移酶候选基因,对其开展生物信息学分析。结果表明,该基因开放阅读框长1380 bp,编码459个氨基酸,等电点(pI)预测为5.54,理论分子量约49.66 kD,系统发育分析表明该基因与向日葵中的UGT89A2同源,故将其命名为SrUGT89A2。构建pET28a-SrUGT89A2原核表达载体,并在大肠杆菌(BL21(DE3))中诱导表达得到重组蛋白,HPLC检测表明粗酶液能催化甜叶菊提取液形成一个新的色谱峰,该峰保留时间与莱鲍迪D苷一致。经进一步纯化UGT89A2蛋白,添加不同甜菊糖苷标准品为催化底物,但未鉴定出该蛋白催化的具体糖苷。该潜在催化甜菊糖RD苷合成的新型糖基转移酶基因SrUGT89A2的发现,为RD苷的生物合成和甜菊糖苷的生物途径研究提供新的理论依据。     

河西走廊发展甜叶菊的优势分析及超高产栽培措施

分析了甘肃河西走廊种植甜叶菊的优势因素,总结了沿祁连山冷凉灌区甜叶菊超高产栽培技术。     

干旱胁迫对甜叶菊生理指标及单株干叶产量的影响

为了给干旱胁迫条件下的甜叶菊栽培管理提供理论依据,利用温室盆栽法研究了干旱胁迫对不同种质材料甜叶菊生理指标及干叶产量的影响。结果表明:正常水分处理下5份甜叶菊种质材料的可溶性蛋白质含量、相对电导率、丙二醛(MDA)含量、超氧化物歧化酶(SOD)、过氧化物酶(POD)及甜叶菊单株干叶产量不同。随着干旱时间的持续,5份甜叶菊种质材料的可溶性蛋白质含量均表现为下降趋势,仅IS-1在T3(停止灌溉15天)略有上升;5份甜叶菊种质材料相对电导率均出现较平稳的显著增加;IS-1和AL-4叶片MDA的含量随着干旱胁迫时间的持续先降低后升高,而QF-1、‘青甜杂4’及JD-1叶片MDA的含量持续升高;SOD与POD的活性均表现出先升高后降低再升高的变化趋势;5份甜叶菊种质材料的单株干叶产量均出现不同程度的下降趋势。相同处理中不同材料的相同指标变化程度不同,说明其抗旱能力不同:其中IS-1最强,QF-1最弱,其他3份材料的抗旱性顺序分别为:AL-4>‘青甜杂4’>JD-1。     

安徽省明光市甜叶菊产业提升探讨

详细介绍了甜叶菊功效和发展,并从标准化育苗基地的建设、栽培和田间管理技术的提高、高值农业的发展和加工产业链的完善等方面阐述了安徽省明光市提升甜叶菊产业的新思路。     

Productivity of two stevia varieties under reduced irrigation and fertilization inputs

A 3-year field study was conducted in central Greece to determine the productivity of two stevia [(Stevia rebaudiana (Bertoni) Bertoni] varieties (‘Morita’ and ‘Candy-stevia’) under normal and reduced irrigation (100% and 75% of the evapotranspiration) and fertilization [1:0.8:1.1 or 1:0.4:0.8 N:P:K ratio in the first year and only N fertilization (100% or 74% of the recommended rate) in the second and third years] inputs. Averaged across years, stevia cv. Morita achieved greater dry leaf yield (3.48 t ha^?1) than the cv. Candy-stevia (2.85 t ha^?1). Irrigation and fertilization inputs did not significantly affect stevia cv. Morita dry leaf and steviol glycosides (stevioside plus rebaudioside-A) yields; however, decreasing irrigation and fertilization caused slight reduction of cv. Candy-stevia yields. In cv. Morita leaves, the concentrations of stevioside and rebaudioside-A ranged from 5.97% to 7.78% and 3.73% to 4.79%, respectively, while the corresponding concentrations in cv. Candy-stevia leaves were 8.21–9.36% and 3.89–6.33%. Conclusively, both stevia varieties could achieve satisfactory dry leaf biomass and steviol glycosides yield, even when grown under reduced irrigation (at 75% of evapotranspiration) and reduced N fertilization (74% of the recommended rate). Thus, stevia could represent an alternative crop to tobacco in the Mediterranean conditions.     

中国甜菊和甜菊糖甙的分型研究

本文依据甜味成分,首先论述了分型的意义:1) 甜味成分R- A( 甜菊A3 甙:Rebaudioside A)优于St( 甜菊甙:Stevioside) ,甜度R- A 是St 的1 .4～1 .5 倍,是蔗糖的385～450 倍,口感R- A 比St更接近蔗糖;2) 甜味成分含量高低具有多样性,是分型的科学依据;3) 优质化是一个过程,进行分型并规范标准已十分必要。其次,阐述了分型标准:分述了以R- A 占有率为依据的甜菊叶和甜菊糖甙的分型,包括R- A 型和St 型的分型判断式和分型简式。同时提出R- A占有率不等同的A、B、C三级制的型级标准。     

Large scale in vitro propagation of Stevia rebaudiana (bert) for commercial application: Pharmaceutically important and antidiabetic medicinal herb

Stevia rebaudiana is a valuable medicinal plant species and it is being used for the treatment of diabetes. Currently, there is a high demand for raw material of this medicinal herb due to ever increasing diabetes disorder among the population. In order to meet the increased demand an efficient in vitro propagation of S. rebaudiana was established. Nodal explants collected from the field were cultured on MS basal medium fortified with different concentrations of BAP (0.5-3.0 mg/l) and KIN (0.5-3.0 mg/l) individually for shoot bud induction. In vitro derived nodal buds were cultured on MS medium supplemented with different concentrations (0.5-3.0 mg/l) of BAP and KIN for multiple shoot bud regeneration. In the second experiment, in vitro derived buds were placed on MS medium supplemented with different concentrations of BAP (0.5-3.0 mg/l) in combination with 0.5 mg/l IAA or IBA or NAA for shoot bud multiplication. The highest frequency (94.50%) of multiple shoot regeneration with maximum number of shoots (15.69 shoots/explant) was noticed on MS medium supplemented with 1.0 mg/l BAP. For large scale plant production, in vitro derived nodal bud explants were cultured on MS medium fortified with 1.0 mg/l BAP, in which about 123 shoots/explant were obtained after three subcultures on the same media composition. Elongated shoots (>2 cm) dissected out from the in vitro proliferated shoot clumps were cultured on half-strength MS medium containing different concentrations of NAA (0.1-0.5 mg/l) and/or MS medium fortified with various concentrations (0.5-2.0 mg/l) of auxins (NAA, IAA and IBA) for root induction. Highest frequency of rooting (96%) was noticed on half-strength MS medium augmented with 0.4 mg/l NAA. The rooted plantlets were successfully transferred into plastic cups containing sand and soil in the ratio of 1:2 and subsequently established in the greenhouse. The present in vitro propagation protocol would facilitate an alternative method for rapid and large-scale production of this important antidiabetic medicinal plant.     

鲁西南甜叶菊扦插育苗及优质高产栽培技术

2008年任城区为避免甜叶菊因品种退化、施肥不合理、病虫害加重造成产量降低、品质变差,出现卖叶难或叶贱伤农的不利局面,再创甜叶菊产业新辉煌,进行了甜叶菊扦插育苗及优质高产栽培技术的研究与应用,现已形成从品种更新、扦插育苗到收获贮藏的一整套比较完整的优质高产栽培技术。     

甜叶菊水浸液处理蚕豆根尖细胞的抗畸变效应

[目的]探究甜叶菊水浸液对蚕豆根尖细胞有无毒害或抗致畸作用,为甜叶菊作为饮品开发提供参考依据。[方法]利用微核检验技术,测试蚕豆根尖细胞染色体在N1甜-叶菊水浸液、CK＋-烟草水浸液、N2烟-草和茶混合水浸液以及N3烟-草、甜叶菊混合水浸液处理下的微核发生率。[结果]N1组的微核发生率与阴性对照差异不显著;N2组的微核抑制率达到81.09%;N3组的微核抑制率达到66.04%。[结论]甜叶菊水浸液对蚕豆根尖细胞无毒害;甜叶菊水浸液可明显降低烟毒所致的蚕豆根尖细胞微核发生率;甜叶菊水浸液对烟毒所致的蚕豆根尖细胞微核发生率抑制效果低于茶叶水浸液。