用共聚焦扫描显微镜检术和酶法分离技术观测观察水稻胚囊发育

本文中以水稻为实验材料，用共聚焦扫描显微镜检术(CLSM)和酶法分离技术观察其胚囊取得好的效果，主要实验结果如下： 1.水稻子房分别用FAA和4%戊二醛固定液固定，经乙醇脱水，然后用冬青油整体透明及丁香油封片。在共聚焦扫描显微镜下，发育中的水稻胚囊显示自发荧光，可分辨出胚囊内部结构。FAA和4%戊二醛两种固定液效果不同，后者效果更佳。用上述实验程序进一步观察拟南芥菜胚囊及水稻和拟南芥菜花粉表明，CLSM可用于快速观察分析水稻和拟南芥菜胚囊发育过程以及水稻胚囊败育情况，但不适用于观察分析其花粉发育过程。 2.水稻子房用FAA、FPA或卡诺氏固定液固定，经乙醇转至蒸镏水，然后置于由纤维素酶和果胶酶组成的酶液中，在37℃保温条件下进行连续振荡酶解，在振荡过程中辅以手工显微操作，由此即可分离出水稻固定胚珠的胚囊。用相差显微镜观察分离的胚囊表明，胚囊整体性及立体感强，观察效果好。在成功分离水稻固定材料胚囊的基础上，初步尝试了水稻新鲜材料胚囊的分离。

Development of solar-blind AlGaN 128x128 ultraviolet focal plane arrays

This paper reports the development of solar-blind aluminum gallium nitride (AlGaN) 128x128 UV Focal Plane Arrays (FPAs). The back-illuminated hybrid FPA architecture consists of an 128x128 back-illuminated AlGaN PIN detector array that is bump-mounted to a matching 128x128 silicon CMOS readout integrated circuit (ROIC) chip. The 128x128 p-i-n photodiode arrays with cuton and cutoff wavelengths of 233 and 258 nm, with a sharp reduction in response to UVB (280-320 nm) light. Several examples of solar-blind images are provided. This solar-blind band FPA has much better application prospect.

Quantum well infrared photodetector simultaneously working in two atmospheric windows

We have demonstrated a two-contact quantum well infrared photodetector (QWIP) exhibiting simultaneous photoresponse in both the mid- and the long-wavelength atmospheric windows of 3-5 mu m and of 8-12 mu m. The structure of the device was achieved by sequentially growing a mid-wavelength QWIP part followed by a long-wavelength QWIP part separated by an n-doped layer. Compared with the conventional dual-band QWIP device utilizing three ohmic contacts, our QWIP is promising to greatly facilitate two-color focal plane array (FPA) fabrication by reducing the number of the indium bumps per pixel from three to one just like a monochromatic FPA fabrication and to increase the FPA fill factor by reducing one contact per pixel; another advantage may be that this QWIP FPA boasts broadband detection capability in the two atmospheric windows while using only a monochromatic readout integrated circuit. We attributed this simultaneous broadband detection to the different distributions of the total bias voltage between the mid- and long-wavelength QWIP parts.

木霉的种间融合重组及生物学特性研究

本文利用原生质体融合技术，以四株营养缺陷型突变株（康宁木霉UV2－1、UV2－15、绿色木霉UV2－11和另一木霉菌株UV2－2）为亲本进行种间融合重组。研究了原生质体形成和再生的最适条件及高产的重组菌株筛选的方法。筛选到了一株优良的融合株F1－18，它固体发酵稻草粉产生的滤纸酶活（FPA）、Cx酶活、Cl酶活和β－葡萄糖苷酶活分别为1148、5705、6042和1036 U/g基质，分别是其双亲－康宁木霉F224和绿色木霉F264－的1.86、1.38、1.95、1.52倍和9.10、6.78、4.79、0.85倍。对F1－18的生物学特性进行了研究。经菌落形态观察、分生孢子大小及其DNA含量测定，认定它为单倍性重组体。经非特异性酯酶和过氧化物酶同工酶酶谱分析及纤维素酶SDS－PAGE电泳图谱分析表明，它既有与双亲共有的谱带，也有它独有的谱带，说明在融合－分离过程中，发生了基因重组和基因突变，产生了新的蛋白组分。与生产用菌SN9706相比，F1－18固体发稻草粉产生的滤纸酶活提高了39％，β－葡萄糖苷酶活提高了86％。在固体发酵玉米秸粉时也获得较高的纤维素酶产量，具有广泛的应用前景和推广价值。F1－18的最适产酶条件为：培养基起始PH值为5.5 ～ 6.0，培养基中加2.5 ～ 3倍于原料的水，28 ～ 30 ℃发酵4天，培养基中添加0.35%脲和0.35% KNO3，最高酶产量可达滤纸酶活1347 U/g基质。

鄂尔多斯地区锦鸡儿资源化途径与关键技术

锦鸡儿灌木适生于鄂尔多斯高原，资源丰富，萌发力强，粗蛋白和钙含量高，锦鸡儿的饲用化开发是当地羊绒业实现可持续发展的根本对策之一。为此进行了锦鸡儿资源评估并应用正交、均匀和配方设计对康氏木霉，黑曲霉产酶发酵和锦鸡儿同步酶解发酵进行了实验研究。结果表明：（1）锦鸡儿叶部约占地上干生物质的20％；4年是锦鸡儿生长的临界点，4年后粗纤维含量骤升，木质化程度加剧。故锦鸡儿应在花期后、落叶前的深秋、每4年贴地平茬一次。（2）开发出康氏木霉纤维素酶、黑曲霉果胶酶的优化产酶培养基配方与固态发酵工艺，二者放大发酵复合酶的活力超过国内同类商品，成本仅537.16元／（tDM）、1072.10元／（tDM）。舍饲时添加复合酶的山羊仅增重可增收138元（年·只）。（3）在同步酶解发酵锦鸡儿生物质时，乳酸菌长期发酵产生的乳酸会降低pH值并对酶解粗纤维产生抑制；复合酶中FPA:CMCase：棉花酶： β-glucosidase活力比以0.6:1:0.3:1为宜。（4）中间锦鸡儿资源集中在干草原区，4年轮流平茬时每年收获的生物质可供146万只羊越冬，经复合酶发酵后能满足191万只羊越冬期间对粗蛋白的需求。本研究有助于西部不发达牧区实现社会、经济和环境的可持续发展。

厌氧复合菌系的筛选及含纤维素原料预处理复合菌剂的研究

本文从不同厌氧生境中获得7组(C-2、Y-2、L-2 、NZ、H-3、CZ、L-3)具有纤维素降解能力的复合菌系。经过不断传代、淘汰纤维素降解能力降低的菌系，最后得到一组高效、传代稳定的厌氧纤维素分解复合菌系L-3。该菌系可使滤纸在42 h内溃烂，并能在分解纤维素的同时产氢气。对L-3复合菌系的产酶条件进行了研究，结果表明，在实验范围内该菌系的产酶最适条件为：pH 6.5，温度37 ℃，接种量5 %，最佳碳源为滤纸，最佳氮源为硫酸铵。第10天测得羧甲基纤维素酶(CMCase)、滤纸酶(FPA)、外切葡聚糖酶(C1)、β-葡聚糖苷酶(β-glucodase)的酶活分别为0.216 U/ml、0.101 U/ml、0.132 U/ml、0.002 U/ml，滤纸失重率70.6 %。发酵代谢产物乙醇和丁酸含量分别可达1378 mg/L 、2695 mg/L，发酵产生的气体中氢气含量最高可达70.2 %。DGGE结果表明该菌系主要由14种菌组成，其中有三株菌在发酵前后菌数发生了明显的变化，说明在以滤纸为底物的降解过程中，这三株菌起到了重要作用，对这三株菌进行了分子生物学鉴定，初步定为Clostridium phytofermentans、Clostridium cellulovorans、Desulfovibrio sp。 利用实验室分离得到的纤维素降解菌，最终配制出由10、X-1、X-13、ST-13、L-3组成的好氧-厌氧纤维素降解复合菌剂。以秸秆为发酵底物，菌剂接种量1%，利用复合菌剂预处理后的秸秆，发酵总产气量相对于对照提高了71.62%，甲烷含量最高可达70.08%。 A group of microbial consortia L-3 was isolated from the anaerobic fermentation residue of corn stalk, which could degrade cellulose and produce hydrogen. The CMCase, FPA, C1 and β-glucosidase activity of L-3 could reach to 0.216 U/ml, 0.101 U/ml, 0.132 U/ml and 0.002 U/ml, respectively. In the filter degrading process, the filter paper collapsed in the liquid culture within 42 h and the filter degrading rate could reach to 70.6% in the 13 days, meanwhile, hydrogen was determined and the highest hydrogen content was 70.2%. The optimum cellulase-degrading conditions were filter papaer as the carbon source, (NH4)2SO4 as the nitrogen source, 37 ℃ and pH 6.5 in this experiment. DGGE results showed that the microbial consortia L-3 mainly included 14 strains. The amount of 3 strains were changed during the fermentation. These strains were identified as Clostridium phytofermentans、Clostridium cellulovorans、Desulfovibrio sp by 16S rDNA sequence analysis. The cellulose- degrading microbial agent was composed by 10, X-1, X-13, ST-13, L-3 which were isolated in the laboratory. The straw pretreated by cellulose-degrading microbial agent was used to ferment, the total biogas production increased by 72% comparing to the control. The content of methane could reach to 70.08%。

康氏木霉产酶发酵固体培养基优化研究

为利用廉价的培养基生产纤维素酶复合制剂,本实验采用培养基配方选择试验和双温度培养法对康氏木霉F244产酶特性进行了研究.在测定滤纸酶(FPA)、棉花酶、羧甲基纤维素酶(CMCase)、β-葡萄糖苷酶和果胶酶活力的基础上利用SPSS建立回归方程,全相关系数分别达到0.852,0.941,0.964,0.703,0.899,而后通过无约束规划求解找到最佳配方,并对酶活进行了预报和对比.结果表明:各酶活最大时对培养基各成分的含量要求不同;应用稻草粉质量分数20.3％,麸皮质量分数26.1％,(NH4)2SO4质量分数7.9％,水分质量分数45.7％的配方发酵时,F244的FPA、棉花酶、CMCase、β-葡萄糖苷酶、果胶酶活可望达14.1,20.1,43.9,21.6,16.8 IU/g,基本与里氏木霉Q9414在其推荐培养基上的产酶水平相当,而且该配方用料来源广泛,成本低廉,工艺简单,产品安全无毒.