酶预处理针叶木硫酸盐碱木质素制备酚醛树脂胶黏剂的研究

研究了纤维素酶预处理针叶木硫酸盐碱木质素(KPL),有效脱除其中的糖分,以提升其替代苯酚制备木质素基酚醛树脂胶黏剂(LPF)的性能。通过单因素实验,优化了酶解预处理过程的工艺参数,并以纤维素酶预处理的木质素60%替代苯酚与甲醛反应制备酶预处理木质素基酚醛树脂胶黏剂(EHLPF),通过FTIR、TG对胶黏剂的结构及热稳定性进行表征。结果表明,优化后的纤维素酶预处理条件为:酶用量4 FPU/g,反应时间48 h,料液比1∶24,以超纯水作为缓冲体系。结果表明纤维素酶对制浆黑液中的多糖去除效果显著,总糖含量降低至2.46%,总糖去除率可达63.00%,木质素纯度达86.26%。纤维素酶预处理后木质素制备的EHLPF胶黏剂干、湿态胶合强度可达1.95,1.86 MPa,与酶预处理前的对照样相比分别提高了83.96%和124.10%。同时,较低的总糖含量的粗木质素所制备的胶黏剂表现出更好的热稳定性。

氧化钽催化葡萄糖制备乳酸

将Ta2O5作为催化剂用于葡萄糖制备乳酸,结果发现Ta2O5的催化效果比较优异。利用SEM对Ta2O5进行表征,结果表明,Ta2O5表面由许多球状颗粒堆砌形成,颗粒尺寸为200~300 nm。此外,利用正交实验分析不同反应条件对催化效果的影响程度,实验证明反应温度>底物质量浓度>反应时间>催化剂质量。最后考察了催化剂重复使用性能和不同反应条件对于催化效果的影响,结果表明,反应温度为190℃、反应时间为4 h、底物质量浓度为6 g/L、催化剂质量为0. 06 g时,催化效果最佳,葡萄糖转化率达到92. 3%,乳酸得率达到71. 9%。催化剂经重复使用5次后,乳酸得率仍有46. 7%。

氧化预处理木质素制备高性能木质素酚醛树脂胶粘剂

工业木质素在温和条件下分别经H_(2)O_(2)、(NH_(4))_(2)S_(2)O_(8)氧化处理,用于制备木质素酚醛树脂胶粘剂。经H_(2)O_(2)处理,木质素分子量降低9.8%,酚羟基含量提高了27.46%,反应活性提高;经(NH_(4))_(2)S_(2)O_(8)处理木质素甲氧基含量降低了9.92%,酚羟基增加12.15%,与甲醛的反应性增加。在相同取代率下,经H_(2)O_(2)、(NH_(4))_(2)S_(2)O_(8)处理木质素制备的胶粘剂,游离苯酚、游离甲醛含量降低,胶合强度提高。其中(NH_(4))_(2)S_(2)O_(8)处理木质素制备胶粘剂胶合强度提高显著,140℃、1.20 MPa热压条件下,L_(3)PF-50%胶合强度达1.80 MPa,提高了35.34%;160℃、1.60 MPa热压条件下,L_(3)PF-50%胶合强度达到1.94 MPa,提高了33.79%,L_(3)PF-80%强度提高了29.63%,达到1.40 MPa。

Molecular Cloning and Characterization of Fruit Softening Related Gene β-Mannanase from Banana Fruit

A 1 250 bp cDNA fragment encoding β-mannanase, named MaMAN, was cloned from banana （Musa spp cv. Baxi） fruit using degenerate primers designed with reference to the conserved nucleic acid sequences of known β-mannanase genes by RT-PCR. Sequence analysis showed that MaMAN cDNA encompassed a 1 085 bp open-reading frame （ORF）, encoding a predicted polypeptide of 395 amino acids. Alignment of the deduced amino acid sequence of MaMAN and other putative β-mannanases showed that MaMAN has an identity of 86, 70, 69, 54, and 57%, respectively, to β-mannanases from tomato, lettuce, arabidopsis, carrot and oryza sativa. The catalytic residues： Asn203, Glu204, Glu318 and the active site residues： Arg86, His277, Tyr279, and Trp360, which were strictly conserved in the glycoside hydrolase family 5 to which all β-mannanases belonged, were found in MaMAN. Semi-quantitative RT-PCR revealed that the level of MaMAN transcript in the pulp increased during banana fruit ripening, suggesting that MaMAN was likely to be involved highly in banana fruit softening.