不同强度光强胁迫对海带(Saccharina japonica)幼苗光合生理的影响

海带(Saccharinajaponica)是我国藻类生产的主要品种之一,其栽培面积和产量均居世界首位。2021~2022年产季,山东荣成海带主产区先后暴发了大规模病烂灾害,给当地水产经济造成了巨大损失。引起病烂的原因可能来自多方面,其中藻体所受光照过强及水体营养盐水平较低可能起到了一定作用,为此,基于海带幼苗的最小饱和光强、烟台高新区牟平自然海区海水氮磷浓度及不同海水深度下的光照强度测定结果,研究了梯度强光在不同海水营养盐水平下对海带生理的影响,以期为“烂菜”现象的病因分析提供一定的线索。结果显示,海带幼苗在700~900μE/(m^(2) s)强光胁迫3 d后, Fv/Fm可恢复至对照水平,光合色素合成活跃,营养盐含量较高的海水更有助于PSII的修复,但1 300~1 500μE/(m^(2) s)的强光辐射导致PSII不能恢复,岩藻黄素、叶绿素a及β-胡萝卜素含量显著降低。整个胁迫实验中,藻体总抗氧化能力(T-AOC)及其他抗氧化酶比活力大体上在强光胁迫的起始至第3天上调,而在胁迫第5天时又出现下降趋势,且在营养盐含量较高的处理组中,各样本活性均高于天然海水处理组样本。抗氧化酶基因的表达也呈现类似的变化趋势。在低于900μE/(m^(2) s)的光照条件下,抗氧化酶活性可以得到较好的维持,而海水中相对较为丰富的营养盐则有利于藻体抗氧化能力的维持。研究结果为荣成海带病烂暴发的原因分析提供了一定的借鉴。

Identification and Characterization of Long Non-Coding RNAs Involved in Sex-Related Gene Regulation in Kelp Saccharina japonica

Long non-coding RNAs(lncRNAs)regulate a variety of biological processes,including sexual reproduction and differentiation.Saccharina japonica,a commercially important brown alga in China,shows remarkable sexual dimorphism in haploid gametophytes.The sex of Saccharina japonica gametophytes is determined by UV sexual system.However,no results have been reported on the lncRNAs involved in the sex-related gene regulation of S.japonica.This study identified a number of lncRNAs and assessed their expression levels in male and female gametophytes.Among them,a total of 405 lncRNAs and 211 mRNAs showed differential expressions.Furthermore,the functions of target genes of differentially expressed lncRNAs(DELs)differed from those of differentially expressed genes(DEGs),suggesting that lncRNA may interact with other functional proteins,in addition to DEGs,to involve sex regulation in S.japonica.There were 32 and 90 potential cis-regulatory and trans-regulatory interactions between DELsDEGs,respectively.Five of these lncRNAs(LNC_002974,LNC_021059,LNC_038466,LNC_051584,and LNC_027400)interacted with putative male sex determination region(SDR)genes,suggesting that they act as regulators in gametophytes'sex regulation potentially.Findings from this study contribute to our understanding of the roles of lncRNAs in sex differentiation and lay the foundation for functional studies of candidate lncRNAs in the future.

Regulation of Reproduction in Delayed Gametophyte of Saccharina japonica (Laminariales, Phaeophyceae): Effects of Light Intensity, Quality and Photoperiod

Saccharina japonica gametophytes can survive a long period under unfavorable environmental conditions,while they also delay in growth and/or reproduction.Although the reproduction in delayed gametophyte of S.japonica was known to be strongly influenced by light intensity,light quality,and photoperiod,no previous studies have evaluated their interactive effects on gametogenesis.To evaluate these effects,we used an orthogonal experiment to expose delayed gametophytes of S.japonica to different light intensities,light qualities,and photoperiods for 12 days.The results showed that changes in light intensity rather than light quality and photoperiod significantly affected the relative growth rates of the delayed gametophytes.Blue light had the greatest promotion on reproduction rate.The optimal light conditions in the early vegetative growth phase in gametogenesis induction for the delayed gametophytes were at 60–80μmol photons m^(−2) s^(−1) with daylength of 12 or 16 hours under white or blue light.When the delayed gametophytes were maintained in a constant light condition from delayed state to gametogenesis,the beneficial photoperiods for vegetative growth and reproductive rate were both 16L(16 hours of light):8D(8 hours of dark).However,when the delayed S.japonica gametophytes achieve the optimal growth state during the first 6 days and then they were cultured at different light conditions for the following 6 days,the reproduction rate increased as the daylength decreased and attained a peak value in group of 8L:16D photoperiod,indicating that photoperiod adjustment at the transition period is crucial in the gametogenesis induction process of delayed gametophyte of S.japonica.

食用海带(Saccharina japonica)新品系遗传多样性研究

为获取3个食用海带(Saccharina japonica)新品系("海天1号"、"海天2号"、"海天3号")和"黄官1号"海带的遗传多样性和遗传结构信息,为海带种质保存及新品系培育提供理论依据,本研究采用SSR分子标记技术,从20对SSR引物中筛选出8对扩增效果好的引物,对4个海带品系的120个样本进行了种群遗传分析。结果显示,8对引物共检测到28个具有多态性的等位基因,9个特异性等位基因,平均每对引物检测到等位基因数为4.6250个。4个海带品系的Nei?s基因多样性(H)和香农指数(I)平均值分别为0.3809和0.6702,遗传多样性水平偏低,且亲缘关系较近。其中,"海天1号"海带的H、I值最高,多态性位点最多,遗传多样性优于其他3个海带品系。"海天2号"、"海天3号"和"黄官1号"海带遗传多样性水平依次降低。聚类分析结果显示,"海天1号"与"海天3号"海带亲缘关系最近,而与"黄官1号"海带亲缘关系最远。AMOVA分析显示,4个海带品系92.06%的变异来源于品系内部,7.94%的变异来源于品系间。"黄官1号"海带的遗传多样性在4个海带品系中最低,以其作为亲本培育新品种时,应注意提高子代的遗传多样性。遗传多样性最高的是"海天1号",可充分利用其优点培育优良的新品系。

Transcriptome analysis of kelp Saccharina japonica unveils its weird transcripts and metabolite shift of main components at different sporophyte developmental stages

Saccharina japonica is an economically important cold water brown alga extensively cultivated in China. It is cultivated upside down under a floating rope net with its holdfast and meristematic area facing sunlight and UV irradiation and its blade tip toward dark, and other worse cultivation environmental factors also make S . japonic a face more stresses. In this study, S . japonica transcriptomes corresponding to its four developmental stages were analyzed. In total, 7 800 genes predicted in the genome were transcribed. We found that 1 208 of the 7 800 expressed and 2 697 annotated were virus associating genes. Of 778 diff erentially expressed genes (DEGs), 372 were annotatable and 209 were virus associating. Such portion of virus associating genes indicated that the S . japonica genome contained a large portion of active virus originating genes. It was found that the transcripts abundance associated with sugar biosynthesis was about 2.13 folds of all the expressed, indicating that the biosyntheses of structural and storage sugars were very important cellular processes. The total abundance of genes involved in the biosynthesis of alginate and laminarin were similar among all developmental stages, however, that of genes involved in the biosynthesis of mannitol increased about 2-folds from mushroom and adult stages to mature and aging stages. This trend explained our observation that the content of alginate was almost constant at diff erent development stages, while that of mannitol increased sharply. In addition, we found that a set of defense and cell recurring genes highly expressed and many of them expressed diff erentially among stages. On average, the sum abundance of the transcripts of these genes at four stages were 3.40-and 4.96-folds of all the annotated and all the expressed, respectively. This indicated that S . japonica sporophytes persistently respond possible pathogen and environment stresses. The findings are important for timing S . japonica harvest and amending the current cultivation mode.

Analysis of Saccharina japonica transcriptome using the high-throughput DNA sequencing technique and its vanadium-dependent haloperoxidase gene

Saccharina is one of the most important cold-water living marine brown algal genera. In this study we ana-lyzed the transcriptome of S. japonica, which belongs to the 1 000 Plants （OneKP） Project, by using a next-generation high-throughput DNA sequencing technique. About 5.16 GB of raw data were generated, and 65 536 scaffolds with an average length of 454 bp were assembled with SOAP de novo assembly method. In total, 19 040 unigenes were identified by BLAST;25 734 scaffolds were clustered into 37 Gene ontology functional groups;6 760 scaffolds were classified into 25 COG categories, as well as 2 665 scaffolds that were assigned to 306 KEGG pathways. Majority of the unigenes exhibited more similarities to algae including brown algae and diatom than other cyanobacteria, marine diatom, and plant. Saccharina japonica has the outstanding capability to accumulate halogen such as Br and I via halogenation processes from seawater. We acquired 42 different vanadium-dependent haloperoxidases （vHPO） in S. japonica transcriptome data, including 5 segments of vanadium-dependent iodoperoxidase （vIPO） and 37 segments of vanadium-de-pendent bromoperoxidase （vBPO）. Complicated analyses of identified fulllength S. japonica vBPO1 and S. japonica vBPO2 revealed the importance of vBPO among species of brown algae and the strong relationship between marine algal vBPOs and vIPOs. This study will enhance our understanding of the biological charac-teristics and economic values of S. japonica species.

The Brown Algae Saccharina japonica and Sargassum horneri Exhibit Species-Specific Responses to Synergistic Stress of Ocean Acidification and Eutrophication

Ocean acidification and eutrophication are two important environmental stressors.They inevitably impact marine macroalgae,and hence the coastal ecosystem of China.Saccharina japonica,as the main culture species in China,is suffering the harmful golden tide caused by Sargassum horneri.However,it remains unclear whether the detrimental effects of S.horneri on S.japonica cultivation become more severe in future acidified and eutrophic scenario.In this study,we respectively investigated the effects of pCO_(2)(400μatm and 1000μatm)and nutrients(non-enriched and enriched seawater)on the growth,photosynthesis,respiration,chlorophyll contents,and tissue nitrogen of S.japonica and S.horneri.Results indicated that enrichment of nutrients contributed S.horneri to utilize HCO_(3)^(−).The carbon acquisition pathway shifted from HCO_(3)^(−)to CO_(2) in S.japonica,while S.horneri re-mained using HCO_(3)^(−)regulated by nutrient enrichment.S.horneri exhibited better photosynthetic traits than S.japonica,with a higher level of net photosynthetic rate and chlorophyll contents at elevated pCO_(2) and enriched nutrients.Tissue nitrogen also accumulated richly in the thalli of S.horneri under higher pCO_(2) and nutrients.Significant enhancement in growth was only detected in S.horneri under synergistic stress.Together,S.horneri showed competitive dominance in current study.These findings suggest that increasing risk of golden tide in acidified and eutrophic ocean can most likely result in great damage to S.japonica cultivation.

Phylogeny of genera Laminaria and Saccharina(Laminariales, Phaeophyceae) based on three molecular markers

In the past two decades, many studies have focused on the classification within genus Laminaria, ultimately trying to divide it into two subgroups or genera： Laminaria and Saccharina. A significant debate still surrounds the question of its division, as the conflicting phylogenetic hypotheses that have resulted from the classification studies are based on different taxon sampling, molecular markers, or analysis methods. It is aimed at elucidate the molecular phylogeny within Laminaria and Saccharina. The nine species of Lami- nariales are sampled from northern Asia and Europe, and 23 new sequences in the nuclear, plastid, and mitochondrial genomes are determined to identify their taxonomic status. The phylogenetic analyses of 71 species are performed, including representatives from six of the seven families of the order Laminariales, based on three separate data sets. An evidence is provided to strongly support a clear split that maintains the two recognized genera, Laminaria and Saccharina, with Laminaria appearing to be the ancestor group. Further, analyses indicate that all taxa in Saccharina and Laminaria did not form a monophyletic lineage, instead Laminariaceae and Lessoniaceae grouped together interlacedly, and Costariaceae appeared as the sister taxon of the Lessoniaceae-Laminariaceae clade. In the phylogenetic analysis, mitochondrial c oxi- dase I （COI） sequences appeared to be the most credible molecular marker which was more befitting than nuclear encoded internal transcribed spacer （ITS） and plastid encoded rbcL for establishment of Laminariales systematics. It is the most comprehensive phylogeny of the order Laminariales, and contributes to an enhanced understanding and estimation of the phylogenetic relationships for the economically important seaweeds, Laminaria and Saccharina.

Nutrient Enrichment Regulates the Growth and Physiological Responses of Saccharina japonica to Ocean Acidification

Environmental changes,such as ocean acidification and eutrophication,have created threats to kelp mariculture.In this study,the growth,photosynthesis,respiration and nutrient composition of Saccharina japonica were evaluated at different levels of pCO2(400 and 800μL L−1)and nutrients(nutrient-enriched and non-enriched seawater).Elevated pCO2 decreased the relative growth rate(RGR),net photosynthetic rate and contents of tissue carbon and tissue nitrogen under non-enriched nutrient conditions,but it had no significant effect on these parameters under nutrient-enriched conditions.The dark respiration rate was positively affected by elevated pCO2 regardless of the nutrient conditions.However,the C:N was unaffected by elevated pCO2 at both nutrient levels.These results implied that ocean acidification could reduce the production and nutrient contents in the tissues of S.japonica,which was associated with nutrient conditions.

Selection for Eldana saccharina Borer Resistance in Early Stages of Sugarcane Breeding in South Africa

Eldana saccharina (eldana) is the most wide-spread sugarcane borer in South Africa and causes losses estimated at US$90 million. Breeding for resistance started in 1980. The objectives of this study were to examine the potential of evaluating sugarcane families and parents by using data collected from the seedling stage (Stage I) and determine the potential of using logistic regression models in Stage II to enhance breeding for eldana resistance. Data were collected from Stage I trials (BML12 and FML13) at Bruyns Hill and Pongola research stations, respectively, and Stage II (BSL12 and SSL12) at Bruyns Hill and Glenside research stations, respectively. There were significant family effects for BML12 (P = 0.0029) and FML13 (P = 0.0003) indicating families with low eldana dame could be selected. Family variance for BML12 (P = 0.0144) and FML13 (P = 0.0878) were significant indicating large variability. Broad sense heritability of 0.52 (BML12) and 0.51 (FML13) indicated the effectiveness of selecting elite families. The predicted gains were 19.93% (BSL12) and 68.89% (FML13) indicating the value of family selection. The results showed significant female effects (BML12, P = 0.0017;FML13, P = 0.0041) indicating the dominance of maternal effects and suggested additive genetic control. Significant Female x Male interaction effect (FML13, P = 0.0442) suggested existence of non-additive genetic effects. Logistic regression analysis results showed significant (BSL12, P < 0.0001;SSL12, P = 0.0232) suggesting selecting for eldana was effective. Sensitivity analysis validated discriminating ability for eldana damage. Adopting family selection and logistic regression models would enhance breeding for eldana resistance.

Fermentative Bioethanol Production Using Enzymatically Hydrolysed <i>Saccharina latissima</i>

The increased demand for machinery and transport has led to an overwhelming increase in the use of fossil fuels in the last century. Concerning the economic and environmental concern, macroalgae with high fermentable polysaccharide content (mainly mannitol, cellulose and laminarin), can serve as an excellent alternative to food crops for bioethanol production, a renewable liquid fuel. In this study, Saccharina latissima, a brown macroalgae readily available on the Norwegian coast was used as the carbohydrate source for the fermentative production of bioethanol. The macroalgae harvested was found to contain 31.31 ± 1.73 g of reducing sugars per 100 g of dry Saccharina latissima upon enzymatic hydrolysis. The subsequent fermentation with Saccharomyces cerevisiae produced an ethanol yield of 0.42 g of ethanol per g of reducing sugar, resulting in a fermentation efficiency of 84% as compared to the theoretical maximum. Using these results, an evaluation of the fermentation process has demonstrated that the brown macroalgae Saccharina latissima could become a viable bioethanol source in the future.

高温对海带(Saccharina japonica)抗氧化酶及叶绿素荧光参数的影响

以海带(Saccharina japonica)幼苗为材料,研究了高温(25℃)条件下其抗氧化酶、叶绿素含量、叶绿素荧光参数的变化。研究表明,(1)高温组的可溶性蛋白含量在处理12 h后达最大值(P<0.05),相比初始含量升高了37.9%。(2)随着胁迫时间的延长,高温组的丙二醛(MDA)含量呈增加趋势,在48 h时达最大值,与对照组差异显著(P<0.05)。(3)高温组海带幼苗的叶绿素含量随胁迫时间延长呈下降趋势,胁迫48 h时,叶绿素含量达最小值,与初始值相比下降了38.5%(P<0.05)。(4)在高温条件下,过氧化物酶(POD)活性随胁迫时间延长逐渐下降,在48 h时达最小值,与初始值相比下降47.2%,呈显著性差异(P<0.05);超氧化物歧化酶(SOD)活性呈现波动趋势,处理8 h后,SOD活性达最小值;40 h后,SOD活性达最大值,与初始值相比上升了36%(P<0.05)。过氧化氢酶(CAT)活性随胁迫时间延长呈下降趋势,处理36 h后,海带幼苗的CAT活性略有升高;处理48 h后,CAT活性达最小值,与初始值相比下降了75.8%(P<0.05)。(5)高温条件下,海带幼苗的光化学最大量子产量(Fv/Fm)随着胁迫时间延长呈现下降趋势,处理48 h后,高温组的Fv/Fm达最小值,与初始条件相比下降了56.8%,呈显著性差异(P<0.05)。本研究可为海带的耐高温品种选育提供理论依据。

低温弱光保存的海带(Saccharina japonica)雌配子体细胞结构变化

低温弱光保存的部分海带配子体会出现颜色变为浅褐色和白色的现象。以海带雌配子体为对象,采用显微和透射电镜观察的方法,研究不同状态的细胞显微和超微结构。结果发现:颜色变浅的配子体细胞内部分布变得不均匀,出现质壁分离现象,色素体、细胞核和线粒体等细胞器形状变得不规则,色素体片层结构变得模糊;变白的配子体细胞内部空泡化,细胞器完全溶解,或者只残存少量色素体,细胞壁边缘变得粗糙。

Characterization of ribulose-1,5-bisphosphate carboxylase/oxygenase and transcriptional analysis of its related genes in Saccharina japonica(Laminariales,Phaeophyta)

Saccharina japonica is a common macroalga in sublittoral communities of cold seawater environments,and consequently may have highly effi cient ribulose-1,5-bisphosphate carboxylase/oxygenase(Rubisco)activity for carbon assimilation.In our study,we cloned the full-length Rubisco gene from S.japonica(SJ-rbc).It contained an open reading frame for a large subunit gene(SJ-rbcL)of 1 467 bp,a small subunit gene(SJ-rbcS)of 420 bp,and a SJ-rbcL /S intergenic spacer of 269 bp.The deduced peptides of SJ-rbcL and SJ-rbcS were 488 and 139 amino acids with theoretical molecular weights and isoelectric points of 53.97 kDa,5.81 and 15.84 kDa,4.71,respectively.After induction with 1 mmol/L isopropyl-β-Dthiogalactopyranoside for 5 h and purifi cation by Ni 2+ affi nity chromatography,electrophoresis and western blot detection demonstrated successful expression of the 55 kDa SJ-rbcL protein.Real-time quantitative PCR showed that the mRNA levels of SJ-rbcL in gametophytes increased when transferred into normal growth conditions and exhibited diurnal variations: increased expression during the day but suppressed expression at night.This observation implied that Rubisco played a role in normal gametophytic growth and development.In juvenile sporophytes,mRNA levels of SJ-rbcL,carbonic anhydrase,Calvin-BensonBassham cycle-related enzyme,and chloroplast light-harvesting protein were remarkably increased under continuous light irradiance.Similarly,expression of these genes was up-regulated under blue light irradiance at 350 μmol/(m 2·s).Our results indicate that long-term white light and short-term blue light irradiance enhances juvenile sporophytic growth by synergistic effects of various photosynthetic elements.

Phylogeny of Saccharina and Laminaria(Laminariaceae, Laminariales, Phaeophyta) in sequence-tagged-site markers

Laminaria and Saccharina have recently been recognized as two independent clades from the former genus Laminaria. Traditional morphological taxonomy is being challenged by molecular evidence from both nucleus and plastid. Intensive work is in great demand from the perspective of genome colinearity. In this study, 118 sequence-tagged site(STS) markers were screened for phylogenetic analyses, 29 based on genome sequences, while 89 were based on expressed sequence tag(EST) sequences. EST-based STS marker development(29.37%) had an effi ciency twice as high as genome-sequence-based development(9.48%) as a result of high conservation of gene transcripts among the relative species. S. ochotensis, S. religiosa, S. japonica, and L. hyperborea showed great homogeneity in all 118 STS markers. Our result supports the view that the diversifi cation between the genera Saccharina and Laminaria was a more recent event and that Saccharina and Laminaria shared high phylogenetic affi nity. However, when it came to the single nucleotide polymorphism(SNP) level among the 41 SNPs, L. hyperborea owned 29 unique SNPs against 12 within the left three Saccharina species and 12 of the 13 indels were supposedly unique for L. hyperborea, indicated by its high variability. Originating from homologous ancestors, species between the recently diverged genera Laminaria and Saccharina may have taken in enough mutations at the SNP level only, in spite of different evolutionary strategies for better adaptation to the environment. Our study lays a solid foundation from a new perspective, although more accurate phylogenetic analysis is still needed to clarify the evolutionary traces between the genera Saccharina and Laminaria.

Molecular and FISH analysis of 45S rDNA on BAC molecule of Saccharina japonica

IGS is abundant in polymorphism,which is widely used in the analysis of intraspecific genetic diversity and phylogenetic relationships among geographical populations.In this study,the 45S rDNA repeat unit of Saccharina japonica was obtained for the first time by BAC clone sequencing.The total length of the 45S rDNA repeat unit of S.japonica was 8995 bp,including 5420 bp of 18S-5.8S-25S rDNA,and 3575 bp of IGS(Intergenic Spacer),with the GC content of 51.4%.The IGS was composed of a 465 bp of 3′-outer transcribed spacer(ETS),an 874 bp 5′-ETS,and a 2236 bp non-transcribed spacer(NTS),with the GC content of 50.1%.Fiber-FISH(fiber-fluorescence in situ hybridization)analysis of the distribution of 45S rDNA repeat units on the bacterial artificial chromosome illustrated that each fiber had at least five continuously moniliform hybridization signal points.This study provided a new candidate molecular marker for detecting intraspecific polymorphisms of S.japonica.In addition,the successful fiber-FISH analysis of the 45S rDNA on BAC molecule would contribute to the construction of the physical map and map-based cloning of this kelp.

Full-length mRNA sequencing in Saccharina japonica and identification of carbonic anhydrase genes

The carbonic anhydrases(CAs)are a group of enzymes that play an important role in the absorption and transportation of CO_(2) in Saccharina japonica.They are encoded by a superfamily of genes with seven subtypes that are unrelated in sequence but share conserved function in catalyzing the reversible conversion of CO_(2) and HCO_(3)^(-).Here we have characterized the CA members in the transcriptome of S.japonica using Single-molecule real-time(SMRT)sequencing technology.Approximately 9830.4 megabases from 5,028,003 quality subreads were generated,and they were assembled into 326,512 full-length non-chimeric(FLNC)reads,with an average flnc read length of 2181 bp.After removing redundant sequences,79,010 unique transcripts were obtained of which 38,039 transcripts were successfully annotated.From the full-length transcriptome,we have identified 7 full-length cDNA sequences for CA genes(4α-CAs,1β-CAs and 2γ-CAs)and assessed for their potential functions based on phylogenetic analysis.Characterizations of CAs will provide the ground for future studies to determine the involvement of CAs in inorganic carbon absorption and transportation in S.japonica.

Transcriptomic and Proteomic Analysis of Mannitol-metabolism-associated Genes in Saccharina japonica

As a carbon-storage compound and osmoprotectant in brown algae,mannitol is synthesized and then accumulated at high levels in Saccharina japonica(Sja);however,the underlying control mechanisms have not been studied.Our analysis of genomic and transcriptomic data from Sja shows that mannitol metabolism is a cyclic pathway composed of four distinct steps.A mannitol-1-phosphate dehydrogenase(M1 PDH2)and two mannitol-1-phosphatases(M1 Pase1 and MIPase2)work together or in combination to exhibit full enzymatic properties.Based on comprehensive transcriptomic data from different tissues,generations,and sexes as well as under different stress conditions,coupled with droplet digital PCR(dd PCR)and proteomic confirmation,we suggest that Sja M1 Pase1 plays a major role in mannitol biosynthesis and that the basic mannitol anabolism and the carbohydrate pool dynamics are responsible for carbon storage and anti-stress mechanism.Our proteomic data indicate that mannitol metabolism remains constant during diurnal cycle in Sja.In addition,we discover that mannitol-metabolism-associated(MMA)genes show differential expression between the multicellular filamentous(gametophyte)and large parenchymal thallus(sporophyte)generations and respond differentially to environmental stresses,such as hyposaline and hyperthermia conditions.Our results indicate that the ecophysiological significance of such differentially expressed genes may be attributable to the evolution of heteromorphic generations(filamentous and thallus)and environmental adaptation of Laminariales.