条斑紫菜水通道蛋白PyAQP1基因的克隆及功能分析

本研究从条斑紫菜中克隆了一个水通道蛋白(Aquaporin,简称AQP)基因PyAQP,命名为PyAQP1(登录号为KT735045)。序列分析表明,PyAQP1基因cDNA全长为1 151bp,开放阅读框(ORF)为1 002bp,编码333个氨基酸,含有200bp的内含子。氨基酸序列比对分析表明,PyAQP1具有水通道蛋白的保守结构域NPA和6个跨膜区域。MEGA5.0构建的系统发生树表明,该基因属于Glps类。采用基因枪介导的洋葱瞬时表达定位结果显示,PyAQP1基因定位于细胞质膜上。运用实时荧光定量PCR技术对PyAQP1基因在干旱、盐度和温度处理条件下在转录水平进行分析。在干旱处理条件下,PyAQP1基因随着失水率的增加,表达量逐渐降低,失水率达到80%后复水处理,随着复水时间的延长,表达量增加。在山梨醇和盐度胁迫处理下,PyAQP1基因的表达趋势基本一致,随着盐度的增加,表达量降低。温度处理条件下,在-8℃时,基因的表达量显著增加,0℃时,基因的表达量略高于正常处理条件。当温度高于正常生长温度时,基因的表达量随着温度的升高,呈现逐渐升高的趋势。本研究为深入了解条斑紫菜逆境适应机制中水通道蛋白的作用奠定了基础,同时为后续条斑紫菜抗逆品系的选育提供了理论指导。

UV-B紫外辐射对条斑紫菜生理生化的影响

条斑紫菜(Pyropia yezoensis)作为一种生长在潮间带的经济海藻,在适应干露失水时的高紫外辐射上有其独特的特性。本研究以无UV-B辐射为对照组,0.5 W/m^2(低)和2 W/m^2(高)UV-B辐射为实验组,检测条斑紫菜对UV-B紫外辐射响应的叶绿素荧光光合参数、多光谱荧光参数以及酪氨酸酶活性的变化。结果显示,受到UV-B辐射的条斑紫菜的叶绿素荧光光合参数(QY_max、NPQ_Lss、qP_Lss和Rfd_Lss)随辐照时间呈不同程度的下降趋势,并且高辐射强度下的各光合参数值低于低辐射强度,表明条斑紫菜光合作用受到辐射的负面影响;极早期胁迫参数F440/F690和F440/F740的差异表明,2 W/m^2 UV-B辐射组条斑紫菜比0.5 W/m^2辐照组更早(1 h)进入胁迫状态,且UV-B辐射下条斑紫菜酚醛类物质减少;与叶绿素浓度呈负相关的参数F690/F740变化表明,0.5 W/m^2辐照组叶绿素浓度高于对照组,而在辐照3 h内低于2 W/m^2辐照组,2 W/m^2辐照组叶绿素浓度则先上升,并在辐照4h下降,至6h呈显著降低,说明藻体可耐受较低UV-B辐射,而高UV-B长时间辐照对藻体造成明显的伤害;对酪氨酸酶的活性检测结果表明,受到UV-B辐照的条斑紫菜酪氨酸酶活性显著高于对照组,且高辐照组的酶活性高于低辐照组的酶活性。

龙须菜四分孢子体发育过程的WGCNA分析

龙须菜是一种重要的产琼胶海藻,对其繁殖发育的研究将有助于了解龙须菜的生长,有助于育种。本研究对龙须菜不同育性品系(981和鲁龙1号)在不同发育阶段的表达谱数据,采用加权基因共表达网络分析(WGCNA)方法构建基因共表达网络,共获得32个模块。其中,模块最大基因数量为2577个,最小基因数为66个。经过筛选发现与品系相关的模块(以0.7为阈值)共5个,涉及基因共2301个,对模块基因进行GO功能富集分析,结果表明主要富集以下功能上:信号转导、转运、细胞分化、翻译、细胞稳态、生物合成过程等。981品系与鲁龙1号品系的富集结果对比表明981品系在孢子放散过程中生物活性不高,生物合成水平较低,内环境稳态较差。经过KEGG富集,筛选到21个与981品系II期四分孢子形成相关的备选基因,主要富集到DNA复制和染色体形态变化等与细胞周期相关的功能上,表明981品系在孢子形成时期的细胞分裂可能出现异常。本文结果为进一步深入揭示龙须菜四分孢子体发育分子调控机制提供思路和导向。

The first complete organellar genomes of an Antarctic red alga,Pyropia endiviifolia:insights into its genome architecture and phylogenetic position within genus Pyropia(Bangiales,Rhodophyta)

Pyropia species grow in the intertidal zone and are cold-water adapted. To date, most of the information about the whole plastid and mitochondrial genomes(ptDNA and mtDNA) of this genus is limited to Northern Hemisphere species. Here, we report the sequencing of the ptDNA and mtDNA of the Antarctic red alga Pyropia endiviifolia using the Illumina platform. The plastid genome(195 784 bp, 33.28% GC content) contains 210 protein-coding genes, 37 tRNA genes and 6 rRNA genes. The mitochondrial genome(34 603 bp, 30.5% GC content) contains 26 protein-coding genes, 25 tRNA genes and 2 rRNA genes. Our results suggest that the organellar genomes of Py. endiviifolia have a compact organization. Although the collinearity of these genomes is conserved compared with other Pyropia species, the genome sizes show significant differences, mainly because of the different copy numbers of rDNA operons in the pt DNA and group II introns in the mtDNA. The other Pyropia species have 2–3 distinct intronic ORFs in their cox 1 genes, but Py. endiviifolia has no introns in its cox 1 gene. This has led to a smaller mtDNA than in other Pyropia species. The phylogenetic relationships within Pyropia were examined using concatenated gene sets from most of the available organellar genomes with both the maximum likelihood and Bayesian methods. The analysis revealed a sister taxa affiliation between the Antarctic species Py. endiviifolia and the North American species Py. kanakaensis.