Suppression of Cs FAD3 in a JA-dependent manner,but not through the SA pathway,impairs drought stress tolerance in tea

The growth and yield of tea plants are seriously limited by drought stress.Fatty acid desaturases(FADs)contribute to the mediation of membrane fluidity in response to different stresses,although the role ofω-3 FAD(Omega-3fatty acid desaturase)-mediated damage induced by drought stress in tea plants is poorly understood.In this study,drought stress significantly promoted the synthesis of C18:3(linolenic acid)and the expression level of CsFAD3.Yeast experiments further demonstrated that CsFAD3 can convert C18:2 to C18:3,and that the 35S:GFP-CsFAD3fusion protein was localized in the endoplasmic reticulum of Nicotiana benthamiana cells.CsFAD3-silenced tea leaves exhibited poor drought tolerance,with a lower F_(v)/F_(m)and a higher malondialdehyde(MDA)content than the control plants.However,transgenic 35S:CsFAD3 Arabidopsis plants showed the opposite phenotypes.In addition,the jasmonic acid(JA)content and the expression levels of CsLOX2,CsLOX4,CsAOS,CsAOC3 and CsOPR2 were significantly reduced in CsFAD3-silenced leaves under drought stress.However,no substantial difference in the salicylic acid(SA)content was detected under normal or drought conditions.An analysis of Atcoi1(JA receptor)or Atnpr1(SA receptor)mutant Arabidopsis plants in 35S:CsFAD3 backgrounds further revealed that knockout of Atcoi1impaired the drought-tolerant phenotypes of CsFAD3 overexpression lines.Therefore,this study demonstrated that CsFAD3 plays a crucial role in drought tolerance by mediating JA pathways.

界面聚合反应有机溶剂对聚酰胺复合纳滤膜结构及性能的影响

聚酰胺复合纳滤膜的分离性能主要由聚酰胺分离层决定。在界面聚合反应过程中,有机相溶剂的物理性质影响两相单体在界面的溶解及扩散行为,使聚酰胺分离层微观形貌结构发生变化,从而改变膜性能。以异构烷烃混合型溶剂Isopar G,Isopar H,Isopar L和Isopar M为有机相溶剂采用界面聚合法制备聚酰胺复合纳滤膜,考察上述有机相溶剂对复合纳滤膜聚酰胺交联度、分离层微观结构和聚酰胺高分子链堆积程度的影响,通过分析有机相溶剂物理性质与纳滤膜分离性能、聚酰胺层结构参数之间的相关性,探究有机相溶剂对纳滤膜分离性能的影响机制。结果表明,有机相溶剂的表面张力与聚酰胺高分子团簇的分形维数(D_(m))呈强相关性,相关性系数为-0.98;D_(m)与复合纳滤膜的水透过系数(A)呈强相关性,相关性系数为0.95,即通过选取表面张力较低的有机相溶剂,有利于提高聚酰胺高分子的分形维数,使聚酰胺具有更高的链密度,短分子链结构堆积更加疏松,从而制备具有更高水通量的聚酰胺复合纳滤膜。有机相溶剂的表面张力与A的相关性系数为-0.97,进一步印证了上述结论。

聚酰亚胺气体分离膜的制备与改性研究进展

聚酰亚胺是由二胺和二酐单体通过缩聚反应生成的一类含有酰亚胺环的高性能聚合物,具有高热稳定性、高力学性能、结构多样性、良好的成膜性和分离性能等优点,在分离膜领域得到了广泛应用,但在气体分离方面仍然受罗伯逊上界的限制。文中综述了聚酰亚胺及膜的制备以及聚酰亚胺气体分离膜的改性方法,简述了聚酰亚胺气体分离膜目前存在的核心问题,从物理共混、交联改性、分子结构设计、制备热重排聚合物及碳分子筛膜5个方面,重点回顾了聚酰亚胺气体分离膜的改性研究进展。研究指出,随着工业上对聚酰亚胺气体分离膜性能要求的不断提高,开发新型聚酰亚胺制膜材料、优化聚酰亚胺膜材料的性能以及简化聚酰亚胺气体分离膜的制备和改性方法成为未来聚酰亚胺气体分离膜的研究重点。

基于反向扩散法的纳米ZIF-8改性PVDF膜及其在纳滤膜制备中的应用

通过合成方案优化,在无需外加碱性添加剂和低化学计量比的条件下,采用反向扩散法实现聚偏氟乙烯(PVDF)基膜表面形貌规则、粒径均一的纳米ZIF-8晶体层的原位生长,制备了无缺陷纳米ZIF-8改性PVDF复合膜。利用场发射扫描电子显微镜、X射线衍射仪、原子力显微镜对ZIF-8改性PVDF膜的组成、结构和形貌进行了表征和分析,考察了不同合成条件对ZIF-8晶体结构及形态的影响。采用界面聚合反应,制备了基于纳米ZIF-8改性的PVDF聚酰胺复合纳滤膜。结果表明,当PVDF膜正面为2-甲基咪唑甲醇溶液,PVDF膜背面为硝酸锌水溶液时,可以实现纳米ZIF-8晶体层在PVDF基膜表面的均匀、连续、致密生长,改性膜的粗糙度降低,同时,纳米ZIF-8晶体层的生长改善了聚酰胺与PVDF基膜的界面相容性,显著提高了复合纳滤膜的脱盐性能,ZIF-8改性的PVDF聚酰胺复合纳滤膜在0.6 MPa下对MgSO_(4),Na_(2)SO_(4),NaCl和MgCl_(2)截留率分别达到89.84%,86.11%,83.07%和80.01%。