1) Macrophoma musae
香蕉大茎点霉
2) banana stems
香蕉茎杆
1.
The main structure, working process, main technology parameters and test results on QP-1800 type split lumpy machine for banana stems are introduced in this paper.
阐述了QP-1800型香蕉茎杆切割破片机的主要结构、工作过程、主要技术参数和试验结果。
4) banana stalk and leaves
香蕉茎叶
1.
On the basis of the facts that in China banana stalk and leaves resources were abundant and the utilization of them was not fully realized, this paper summarized the present situation of application, research and development of banana stalk and leaves,pointed out the possible future application.
根据我国香蕉资源丰富而茎叶利用不够充分的情况,结合国内外研究现状,阐述了香蕉茎叶资源开发利用的现状和前景。
5) banana pseudo stem
香蕉茎干
1.
Study on technology of extracting soluble dietary fiber from the banana pseudo stem by ultrasonic wave
超声波提取香蕉茎干中水溶性膳食纤维的研究
2.
Technology filtrated out water-extraction liquid then pressured and alkali-ed on residue and operated condition was studied for the production of dietary fiber from banana pseudo stem,the dry-yield of soluble dietary fiber reached 20.
以香蕉茎干为原料,研究了先过滤出直接水提液,再加压碱处理残渣提取膳食纤维的工艺及其操作条件,结果表明,SDF干基产率达到20。
3.
In this study, the microwave extraction technology of water soluble dietary fiber from banana pseudo stem was optimized based on several single factor tests and L9(34) orthogonal test.
探讨了以香蕉茎干为原料,用微波提取水溶性膳食纤维的工艺及其操作条件,并与直接水提法进行比较。
6) banana stem
香蕉茎秆
1.
An aerobic composting system using banana stem and chicken manure as main stuffing analyses types of material content and parameter variation which are relevant to the maturity, and physical and chemical index of composting maturity evaluation during the composting process.
以香蕉茎秆和鸡粪为主要填料进行好氧堆肥,研究了香蕉茎秆堆肥化过程中几种与腐熟度有关的物质含量和参数的变化情况及堆肥腐熟度评价理化指标。
补充资料:茎点霉素
分子式:
CAS号:
性质:由茎点霉菌Fungus phoma,sp产生的多组分(A,B,B1,B2,C,D,E,F,G)的血小板活化因子拮抗剂。组分A:油状液体,旋光度[α]D+175°(c=0.75氯仿)。抑制血小板活化因子诱导的血小板凝聚的IC50值为1.0×10-5mol/L,抑制血小板活化因子同其受体结合的IC50值为2.3×10-6mol/L。组分B:熔点180~182℃,旋光度[α]D+146°(c=0.75,氯仿)。组分B1:无色结晶,熔点203~205℃,旋光度+167.3°(c=1.0,氯仿)。组分B2:无色油状,旋光度[α]D+173°(c=5.0,氯仿)。组分C:无色结晶,熔点204~205℃。组分D:无色结晶,熔点97~98℃,旋光度[α]D+114.3°(c=1.0,氯仿)。组分E:熔点148~149℃,旋光度+178.4°(氯仿)。组分F:熔点199~202℃,旋光度+120.9°(氯仿)。组分G:熔点131~132℃,旋光度+96.9°(氯仿)。组分B,B1,B2,C,D抑制血小板活化因子诱导的血小板凝聚的ICs0值分别为:17.0,9.8,1.6,6.4,0.8μmol/L,抑制血小板活化因子对受体结合IC50值分别为:>47.9,20.0,>22.1,63.0,0.12μmol/L。
CAS号:
性质:由茎点霉菌Fungus phoma,sp产生的多组分(A,B,B1,B2,C,D,E,F,G)的血小板活化因子拮抗剂。组分A:油状液体,旋光度[α]D+175°(c=0.75氯仿)。抑制血小板活化因子诱导的血小板凝聚的IC50值为1.0×10-5mol/L,抑制血小板活化因子同其受体结合的IC50值为2.3×10-6mol/L。组分B:熔点180~182℃,旋光度[α]D+146°(c=0.75,氯仿)。组分B1:无色结晶,熔点203~205℃,旋光度+167.3°(c=1.0,氯仿)。组分B2:无色油状,旋光度[α]D+173°(c=5.0,氯仿)。组分C:无色结晶,熔点204~205℃。组分D:无色结晶,熔点97~98℃,旋光度[α]D+114.3°(c=1.0,氯仿)。组分E:熔点148~149℃,旋光度+178.4°(氯仿)。组分F:熔点199~202℃,旋光度+120.9°(氯仿)。组分G:熔点131~132℃,旋光度+96.9°(氯仿)。组分B,B1,B2,C,D抑制血小板活化因子诱导的血小板凝聚的ICs0值分别为:17.0,9.8,1.6,6.4,0.8μmol/L,抑制血小板活化因子对受体结合IC50值分别为:>47.9,20.0,>22.1,63.0,0.12μmol/L。
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