富硒培养基栽培富硒食用菌研究

陕西省安康市蕴藏着丰富的硒资源,就如何利用这一宝贵的资源,通过选用不同富硒培养基质栽培食用菌,对食用菌吸收转化硒物质进行探索性研究,将硒资源经生物体转化到食用菌食用器官内,获得富含硒元素的食用菌,提高食用菌的附加值,增加菇农经济收入,为做大做强硒资源产业提供点滴参考。

富硒培养基栽培天白花菇技术

安康市蕴藏着丰富的硒资源,利用富硒培养基栽培天白花菇能将硒资源经天白花菇生物体转化到食用器官内,达到提高天白花菇附加值的目的。主要介绍了培养基取材地域、培养基配比、灭菌、接种、培养、促蕾、出菇管理等各环节。

响应面法优化富硒粗毛纤孔菌菌丝生长培养基成分

本研究考察了粗毛纤孔菌对无机硒的耐受度,并通过响应面法对富硒粗毛纤孔菌菌丝生长培养基成分进行了优化。以粗毛纤孔菌菌丝生长速度为指标,通过单因素实验及Box-Behnken响应面优化,确定该菌菌丝富硒培养基的最佳组成成分,并通过电感耦合等离子体质谱法(ICP-MS)对该菌菌丝硒富集量进行检测。结果表明,粗毛纤孔菌菌丝的生长情况受外源硒影响较大,当硒浓度≥37.25 mg/L时,该菌菌丝生长开始受到显著的抑制(P<0.05),其对硒的最大耐受浓度约为298~596 mg/L;经响应面法优化得到富硒粗毛纤孔菌菌丝生长最优培养基成分为:麸皮56.8 g/L、葡萄糖49 g/L、Se 22.4 mg/L、MgSO40.75 g/L、KH2PO41 g/L、VB11 mg/L、琼脂15 g/L,在此条件下,富硒粗毛纤孔菌实际菌丝生长速度达到8.41 mm/d,与未优化对照组相比,菌丝生长速度提高了0.965倍,且硒富集量达到31.584μg/g。本研究获得了富硒粗毛纤孔菌菌丝生长培养基最优配方,为富硒粗毛纤孔菌菌丝体的大量制备、富硒粗毛纤孔菌子实体的栽培及其它后续研究提供了理论依据。

Preparation of Organic Selenocystine Using Locally Isolated Bread Yeast

In contrast to the toxic inorganic forms of selenium to life at very low concentrations, the organic-selenium compounds are of considerable interest and several of them play essential roles in cell biochemistry and nutritional science. Se-yeast （Selenium-enriched yeast） is a common form of selenium used to supplement dietary intake of this important trace mineral. In the present study, we tried to prepare an organic selenocystine using locally isolated bread yeast （Saccharomyces cerevisiae）. A novel locally prepared date extract media enriched by addition of 0.2% KH2PO4 （potassium phosphate）, 0.6% ammonium sulfate was adopted as alternative culture media. Differences concentrations of selenium salt （30, 60, 120 and 240 lag/mL） were added to the yeast culture media. While the best concentration of selenium added was 30Bg/mL, it achieved optimal conditions for the growth of yeast and the production of red yeast growth identical to the standard. The products （organic selenocystine） were analyzed by HPLC （High Performance Liquid Chromatography） and AAS （Atomic Absorption Spectrophotometer） comparing with authentic standard obtained from Sigma. Results confirmed the formation of similar selenocystine products.

正交实验对植物乳杆菌Lb-30硒化的多因素条件筛选

目的为满足人们对于微量元素硒的日常膳食需求,通过将低级生物利用的无机硒代谢成高级生物可利用的有机硒,增加乳杆菌的硒含量,找出最佳培养方案。方法首次选用植物乳杆菌作为富硒载体。选用MRS液体培养基为基础培养基,探究不同接种量、碳源、氮源、pH值及发酵时间对OD值及富硒含量的影响,并对其培养条件进行优化。结果植物乳杆菌最优富硒方案为:亚硒酸钠添加量为5.0μg/mL,葡萄糖含量为20.0g/L,牛肉膏含量为24.0g/L,初始pH值为5.0,加硒时间为6h,接种量为4.0%,发酵时间为36h。优化后植物乳杆菌富硒含量达到842.118μg/g。结论通过单因素实验对富硒培养的条件进行优化,增加植物乳杆菌的硒含量,得出最佳富硒培养方案,实现将无机硒有机转化,为今后食品中安全且高效地添加有机硒元素提供可行性方案。