PCR法克隆紫穗槐4-香豆酸:CoA连接酶全长cDNA

4 香豆酸 :CoA连接酶 (4CL)是木质素生物合成过程中重要的酶 .该文利用简并寡核苷酸PCR法结合cDNA末端快速扩增PCR法直接获得了紫穗槐 4CLAcDNA全长序列 ,避免了复杂的构建、筛选cDNA文库的过程 .先用简并PCR得到了 4CLA1片段 ,又据此片段设计反向嵌套引物 ,用RACE方法获得未知的 5′和 3′端序列 .所获得的全长 4CLAcDNA ,编码 5 40个氨基酸 .氨基酸序列同源性分析表明4CLA是典型的 4CL蛋白 ,含有预计的AMP binding位点、催化反应区和保守的Cys .     

纤维素废料与造纸黑液木质素制人造木材之探讨

介绍了现有人造木材的种类，阐述了用竹刨花、竹（木）屑等竹（木）加工剩余物或农作物秸秆与造纸黑液中提取的木质素开发人造木材的重大意义，简要介绍了该人造木材的制造原理和方法以及产品的用途，并分析了人造木材的市场前景及其产业化的可行性。     

Lignin Characterization of Triploid Clones of Populus tomentosa Carr.

In order to understand the structural characteristics of lignin in triploid clones ofPopulus tomentosa and its changes in the processes of pulping and bleaching, milled wood lignin （MWL）, lignin carbohydrate complex （LCC） and the residual lignin from kraft pulp （KP） and sulfite pulp （SP） were isolated and analyzed by Fourier transform infrared （FTIR） spectrum and ^13C nuclear magnetic resonance （NMR）. The most diagnostic peaks were assigned and the differences were discussed. The spectral patterns reveal that triploid P tomentosa shows the specific features of hardwood from temperate areas, but in the spectrum of FTIR, the strength ratio orAl270 cm^-1 to A1226 cm^-1 is 0.88, higher than the average of hardwood from temperate areas, which will make the lignin delignification more difficult during pulping and bleaching. The LCC from triploid P tomentosa is mainly composed of xyloglucan and glucuronic acid, and other glucides have much lower ratio. In LCC FTIR, there are three peaks at 1 427, 1 329 and 1 046 cm^-1, indicating that both semi-cellulose and cellulose could exist in LCC, and that there might be relationships between cellulose and lignin. Compared with the residual lignin from KP and SP, the condensed structure in KP is more than that in SP.     

镍基和均相酸催化废弃木质素的溶剂热降解

采用热化学方法降解木质素生成单体和低聚体产物。通过改变溶剂和使用均相酸、镍基催化剂,促进木质素热降解,提高油收率,改善油品质。结果表明:在密封条件下,250℃反应1 h甲醇和水协同促进了木质素降解。水/甲醇/甲酸溶剂中反应的残渣率降低至14.9%,油收率提高至44.1%。添加均相酸HCl、H3PO4和非均相催化剂Ni、Ni/Si O2-Al2O3,促进了原料裂解,抑制了产物缩合,反应生成单体、二聚体为主的油产物。Ni/Si O2-Al2O3催化促进了不饱和脂肪烃的重整和含氧官能团的减少,油收率显著下降。Ni催化则能够同时获得更好的油品质和较高的油收率(41.7%)。     

一氧化氮调控青菜根尖细胞壁过氧化物酶抗镉胁迫的研究

研究了镉胁迫下一氧化氮对青菜幼苗根尖伸长及其木质素生物合成的影响。结果显示:镉处理显著抑制根的生长,并呈现浓度和时间效应;镉处理诱导根尖细胞壁过氧化物酶(CPX)活力的显著上升,并呈现浓度和时间效应;外源一氧化氮供体SNP能够显著缓解镉胁迫对根生长的抑制效应;镉处理显著降低了根尖内源一氧化氮水平,而添加SNP有效提升了镉胁迫下根尖内源一氧化氮水平;添加SNP能够显著缓解镉胁迫诱导的根尖CPX和NADH氧化酶活力的上升以及木质素的合成。这些结果说明一氧化氮可通过抑制青菜幼苗根尖CPX介导的木质素生物合成来抵抗镉胁迫。     

异源表达菊芋HtHCT基因对受体植物木质素相关生理生化指标的影响

羟基肉桂酰辅酶A:莽草酸/奎宁酸羟基肉桂酰转移酶（HCT）是木质素合成过程中的关键酶之一。本研究构建了菊芋HtHCT基因的植物表达载体pCAMBIA1390-HtHCT,分别对拟南芥和本氏烟进行遗传转化,并对转基因植株进行生理生化指标测定。PCR和RT-PCR结果表明,HtHCT基因已经插入到受体植物基因组中,并能进行转录;转基因植株生理生化指标检测表明,HtHCT基因能够调节拟南芥和本氏烟中木质素的含量及组成,并对受体材料的类黄酮合成亦有一定的影响。     

竹材木质素高效降解菌的分离筛选及鉴定

采用愈创木酚变色、苯胺蓝平板退色和酶活性测定筛选出高效降解竹材木质素的菌株。结果表明:通过腐烂的竹材等34份样品分离纯化出139株真菌;通过0.04%愈创木酚和0.1‰苯胺蓝平板初筛,从分离纯化的139株真菌中筛选出具有产木质素降解酶活性的7株降解菌;7株降解菌经液体产酶培养基复筛得到2株高效产降解木质素酶活的菌株:培养7 d,漆酶、木质素过氧化物酶和锰过氧化物酶活性分别达72.558、23.769、55.044和34.611、38.781、82.646 U/mL;2株降解菌FG-35和FG-98分别鉴定为革耳菌Panus lecomtei和烟管菌Bjerkandera adustus。     

Comparison of acid-detergent lignin,alkaline-peroxide lignin,and acid-detergent insoluble ash as internal markers for predicting fecal output and digestibilily by caltie offered bermudagrass hays of varying nutrient composition

Background： The potential for acid-detergent insoluble ash （ADIA）, alkaline-peroxide lignin （APL）, and acid-detergent lignin （ADL） to predict fecal output （FO） and dry matter digestibility （DMD） by cattle offered bermudagrass [Cynodon doctylon （L） Pers.] hays of different qualities was evaluated. Eight ruminally cannulated cows （594 ± 35.5 kg） were allocated randomly to 4 hay diets： low （L）, medium low （ML）, medium high （MH）, and high （H） crude protein （CP） concentration （79, 111,131, and 164 g CP/kg on a DM basis, respectively）. Diets were offered in 3 periods with 2 diet replicates per period and were rotated across cows between periods. Cows were individually fed 20 g DM/kg of body weight in equal feedings at 08：00 and 16：00 h for a 10-d adaptation followed by a 5-d total fecal collection. Actual DM intake （DMI）, DMD, and FO were determined based on hay offered, ort, and feces excreted. These components were then analyzed for ADL, APL, and ADIA concentration to determine marker recovery and marker-based estimates of FO and DMD. Results： Forage DMI was affected by diet （P = 0.02）, and DMI from MH and H was greater （P 〈 0.05） than from L. Apparent DMD tended （P = 0.08） to differ among diets while FO （P = 0.20） was not affected by diet treatments. Average ADL recovery （1.16） was greater （P 〈 0.05） than that of ADIA （1.03） and APL （1.06）, but ADIA and APL did not differ （P = 0.42）. Estimates of FO and DMD derived using APL and ADIA were not different （P≥0.05） from total fecal collection while those using ADL differed （P 〈 0.05）. There was no diet by marker interaction （P≥ 0.22） for either FO or DMD. Conclusion： Acid-detergent insoluble ash and APL accurately predicted FO and DMD of cattle fed bermudagrass hay of varying nutrient composition. These internal markers may facilitate studies involving large numbers of animals and forages. Results from such studies may be used to develop improve     

黄秋葵MYB转录因子的鉴定及与果实老化关系分析

黄秋葵(Hibiscus esculentus L.)纤维素和木质素的大量积累极易引起果实老化,而植物MYB转录因子参与纤维素和木质素等生物合成与沉积,在次生细胞壁形成中起着重要的调控作用。为研究MYB转录因子在黄秋葵老化中的作用,从黄秋葵果实转录组测序数据库中筛选得到10条功能注释为MYB基因的片段序列,克隆获得了HeMYB4、HeMYB6、HeMYB26、HeMYB28、HeMYB44、HeMYB46、HeMYB59、HeMYB86、HeMY108和HeMYB113的基因全长,分析其核苷酸及编码氨基酸序列特征,同时进行了亚细胞定位、磷酸化位点、功能域、进化等生物信息学分析。结果显示,10个MYB基因均定位于细胞质膜上,具有丰富的磷酸化位点和功能域,与拟南芥等物种中参与纤维素和木质素合成的MYB蛋白亲缘关系较近。通过实时荧光定量PCR分析黄秋葵MYB基因家族的10个基因在果实发育过程、采后常温贮藏期间的表达,结果发现,HeMYB46、HeMYB86、HeMY108的表达量与纤维素含量呈极显著正相关,推测上述基因在黄秋葵果实衰老过程纤维素合成中起重要作用;HeMYB46、HeMYB59的表达量与木质素含量呈极显著正相关,推测其在木质素合成中起到重要调控作用。本研究结果初步明确了黄秋葵MYB转录因子在黄秋葵老化过程中的作用, 为黄秋葵的生产、分子育种等提供了理论基础。     

白灵菇木质素降解酶系的检测及其染料脱色能力的研究

[目的]明确白灵菇(Pleurotus ferulae)分泌木质素过氧化物酶(LiP)、锰过氧化物酶(MnP)和漆酶(Laccase)的规律,以及白灵菇染料脱色的能力。[方法]利用紫外可见分光光度计,检测4种培养方式下白灵菇木质素降解酶活性,并在此基础上进行了白灵菇对5种染料的脱色研究。[结果]4种培养方式下,可以检测到MnP和Laccase的活性,但并未检测到LiP。添加Mn2+和2,6-二甲氧基苯酚(2,6-DMP)对MnP和Laccase的产生有抑制作用,而添加青杨木屑可以将MnP的活性提高1.28倍,将Laccase的活性提高3.75倍;白灵菇对中性红和活性黑2种染料的最大脱色率分别为87.12%和86.13%,对活性红和刚果红的最大脱色率分别为45.91%和32.28%,而对结晶紫几乎无脱色能力。[结论]白灵菇产Laccace活性要高于MnP;与脱色活性红、刚果红、结晶紫相比,白灵菇对中性红和活性黑2种染料的脱色更为彻底。