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Article(id=1236345970649264396, tenantId=1146029695717560320, journalId=1210938733613449225, issueId=1236345965947449499, articleNumber=null, orderNo=null, doi=10.19666/j.rlfd.202411231, pmid=null, cstr=null, oa=null, hot=null, price=null, onlineType=0, articleFormat=0, articleType=null, articleTypeStr=null, receivedDate=1732550400000, receivedDateStr=2024-11-26, revisedDate=null, revisedDateStr=null, acceptedDate=null, acceptedDateStr=null, onlineDate=1772697449587, onlineDateStr=2026-03-05, pubDate=1750780800000, pubDateStr=2025-06-25, doiRegisterDate=null, doiRegisterDateStr=null, onlineIssueDate=1772697449587, onlineIssueDateStr=2026-03-05, onlineJustAcceptDate=null, onlineJustAcceptDateStr=null, onlineFirstDate=null, onlineFirstDateStr=null, sourceXml=null, magXml=null, createTime=1772697449587, creator=13701087609, updateTime=1772697449587, updator=13701087609, issue=Issue{id=1236345965947449499, tenantId=1146029695717560320, journalId=1210938733613449225, year='2025', volume='54', issue='6', pageStart='1', pageEnd='210', issueExtLink='null', onlineDate='null', pubDate='null', beforeIssueId=null, nextIssueId=null, price=null, status=1, issueComplete=1, articleOrder=1, issueType=-1, specialIssue=null, createTime=1772697448479, creator=13701087609, updateTime=1772697609456, updator=13701087609, preIssue=null, nextIssue=null, ext={EN=IssueExt(id=1236346641175859638, tenantId=1146029695717560320, journalId=1210938733613449225, issueId=1236345965947449499, language=EN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=), CN=IssueExt(id=1236346641175859639, tenantId=1146029695717560320, journalId=1210938733613449225, issueId=1236345965947449499, language=CN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=)}, issueFiles=null}, startPage=55, endPage=63, ext={EN=ArticleExt(id=1236345970909311264, articleId=1236345970649264396, tenantId=1146029695717560320, journalId=1210938733613449225, language=EN, title=Multi-aspect dynamic analysis for the effect of spectrum on carbon fixation process of haematococcus pluvialis, columnId=1236345966777921692, journalTitle=Thermal Power Generation, columnName=Carbon resource utilization and conversion technology, runingTitle=null, highlight=null, articleAbstract=

Light spectrum regulation is an effective way to promote carbon fixation of haematococcus pluvialis. The carbon fixation capacity of haematococcus pluvialis was compared under different light conditions, and the effects of the mixed red and blue light with different spectral ratios on the carbon fixation performance of haematococcus pluvialis were studied. Gene expressions at different vegetative stages were compared to figure out the dynamic changes of haematococcus pluvialis metabolism on the time scale. The results show that, the carbon fixation rate in red light was 40% higher than that in blue light. By comparing the whole-genome transcriptome of the haematococcus pluvialis, the metabolic responses of the haematococcus pluvialis to different light qualities, including biomass accumulation, energy transfer, photosynthesis, stress and transcription, were analyzed at the molecular level. The metabolism and energy transfer of the haematococcus pluvialis were more active in red light than that in blue light. At the early growth stage, cells under the red light dominant condition tended to accumulate regulatory substances rather than energy storage substances, and genes involved in glycolysis/ gluconeogenesis pathway, tricarboxylic acid cycle (TCA) and AMP-activated protein kinase (AMPK) pathway were up-regulated. Cells under the blue light dominant condition performed better in stress response.

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光谱调控是促进雨生红球藻固碳增长的有效途径。实验对比了在不同光照情况下雨生红球藻的固碳状况,研究不同比例红蓝混合光对雨生红球藻固碳的影响,通过对比不同生长阶段基因,分析了雨生红球藻代谢在时间尺度上的动态变化。结果表明:红光条件下的固碳速率比蓝光条件下高40%;通过雨生红球藻全基因转录组对比,从分子层面多角度分析了雨生红球藻对不同光质的代谢响应,包括生物量积累、能量传递、光合作用、应激性和转录;红光条件下,雨生红球藻的代谢和能量传递比蓝光条件下更活跃;在生长早期,红光条件下的细胞更倾向于积累调节物质而不是储能物质,参与糖酵解途径、三羧酸循环(TCA)和AMPK(AMP-activated protein kinase)途径的基因均有所上调;而蓝光条件下,细胞应激反应较红光条件下表现更好。

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李珂(1987),女,博士,副教授,主要研究方向为生物固碳、碳中和技术,
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王新烨(1999),男,硕士研究生,主要研究方向为燃煤烟气污染物控制与碳减排技术,

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王新烨(1999),男,硕士研究生,主要研究方向为燃煤烟气污染物控制与碳减排技术,

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王新烨(1999),男,硕士研究生,主要研究方向为燃煤烟气污染物控制与碳减排技术,

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The intensity of red and blue light

, figureFileSmall=null, figureFileBig=null, tableContent=
项目红光条件蓝光条件
光合有效辐射PAR /(mW·cm–2)0.8070.979
光量子通量密度/(μmol·(m2·s)–1)39.70938.872
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红蓝混合光光照强度

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项目红光条件蓝光条件
光合有效辐射PAR /(mW·cm–2)0.8070.979
光量子通量密度/(μmol·(m2·s)–1)39.70938.872
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光谱对雨生红球藻固碳过程影响的多角度动态分析
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王新烨 1 , 李珂 1 , 宋鑫博 1 , 储菲菲 2
热力发电 | 碳资源化利用与转化技术 2025,54(6): 55-63
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热力发电 | 碳资源化利用与转化技术 2025, 54(6): 55-63
光谱对雨生红球藻固碳过程影响的多角度动态分析
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王新烨1 , 李珂1 , 宋鑫博1, 储菲菲2
作者信息
  • 1.浙江科技大学能源与环境系统工程系,浙江 杭州 310023
  • 2.中国计量大学标准化学院,浙江 杭州 310018

    • 王新烨(1999),男,硕士研究生,主要研究方向为燃煤烟气污染物控制与碳减排技术,

通讯作者:

李珂(1987),女,博士,副教授,主要研究方向为生物固碳、碳中和技术,
Multi-aspect dynamic analysis for the effect of spectrum on carbon fixation process of haematococcus pluvialis
Xinye WANG1 , Ke LI1 , Xinbo SONG1, Feifei CHU2
Affiliations
  • 1.Department of Energy and Environment System Engineering, Zhejiang University of Science and Technology, Hangzhou 310023, China
  • 2.College of Standardization, China Jiliang University, Hangzhou 310018, China
出版时间: 2025-06-25 doi: 10.19666/j.rlfd.202411231
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光谱调控是促进雨生红球藻固碳增长的有效途径。实验对比了在不同光照情况下雨生红球藻的固碳状况,研究不同比例红蓝混合光对雨生红球藻固碳的影响,通过对比不同生长阶段基因,分析了雨生红球藻代谢在时间尺度上的动态变化。结果表明:红光条件下的固碳速率比蓝光条件下高40%;通过雨生红球藻全基因转录组对比,从分子层面多角度分析了雨生红球藻对不同光质的代谢响应,包括生物量积累、能量传递、光合作用、应激性和转录;红光条件下,雨生红球藻的代谢和能量传递比蓝光条件下更活跃;在生长早期,红光条件下的细胞更倾向于积累调节物质而不是储能物质,参与糖酵解途径、三羧酸循环(TCA)和AMPK(AMP-activated protein kinase)途径的基因均有所上调;而蓝光条件下,细胞应激反应较红光条件下表现更好。

雨生红球藻  /  光谱调控  /  转录组  /  微藻固碳  /  代谢  /  固碳速率

Light spectrum regulation is an effective way to promote carbon fixation of haematococcus pluvialis. The carbon fixation capacity of haematococcus pluvialis was compared under different light conditions, and the effects of the mixed red and blue light with different spectral ratios on the carbon fixation performance of haematococcus pluvialis were studied. Gene expressions at different vegetative stages were compared to figure out the dynamic changes of haematococcus pluvialis metabolism on the time scale. The results show that, the carbon fixation rate in red light was 40% higher than that in blue light. By comparing the whole-genome transcriptome of the haematococcus pluvialis, the metabolic responses of the haematococcus pluvialis to different light qualities, including biomass accumulation, energy transfer, photosynthesis, stress and transcription, were analyzed at the molecular level. The metabolism and energy transfer of the haematococcus pluvialis were more active in red light than that in blue light. At the early growth stage, cells under the red light dominant condition tended to accumulate regulatory substances rather than energy storage substances, and genes involved in glycolysis/ gluconeogenesis pathway, tricarboxylic acid cycle (TCA) and AMP-activated protein kinase (AMPK) pathway were up-regulated. Cells under the blue light dominant condition performed better in stress response.

haematococcus pluvialis  /  spectrum regulation  /  transcriptome  /  microalgae carbon sequestration  /  metabolism  /  carbon sequestration rate
王新烨, 李珂, 宋鑫博, 储菲菲. 光谱对雨生红球藻固碳过程影响的多角度动态分析. 热力发电, 2025 , 54 (6) : 55 -63 . DOI: 10.19666/j.rlfd.202411231
Xinye WANG, Ke LI, Xinbo SONG, Feifei CHU. Multi-aspect dynamic analysis for the effect of spectrum on carbon fixation process of haematococcus pluvialis[J]. Thermal Power Generation, 2025 , 54 (6) : 55 -63 . DOI: 10.19666/j.rlfd.202411231
正文
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光合微藻在碳减排和可再生能源原料利用方面均具有巨大潜力。微藻的生长速度很快,每天生物质的增长量可达1~3倍,光合作用的效率高达12%,是陆上植物的20~100倍[1]。通过光合作用储存的生物质可以转换成柴油、肥料等高附加值产品,减轻对化石能源的依赖[2]
微藻固碳效率和生物量积累受光强和光谱调控[3-4]。一般认为,红光和蓝光对微藻的生长、形态和代谢影响最大[5]。红蓝光的调节作用因微藻种类和生长阶段不同而异[6-7]。红光有利于细胞分裂,而蓝光则有利于细胞个体的增大[8-9]。红光和蓝光的能量传递作用不同[10]。与蓝光相比,红光在电子传递链上的量子效率更高[11];与红光相比,蓝光更有利于叶绿素的积累和提高电子传递速率[12]。一方面,蓝光条件下较高的活性氧(ROS)水平可能导致细胞分裂抑制剂相关基因minD的表达上调[8];另一方面,较高的ROS水平却有利于刺激次生代谢物(如油和色素)的合成。因此,随着微藻的生长,将光从一种波长转换为另一种波长,可以产生更多的生物量或代谢产物[13]。基于红光和蓝光在微藻生长和代谢过程中的不同作用,例如,红光可增强补充全称PSII(光系统II),而蓝光可增强补充全称PSI(光系统I)[14],混合光较单色光能更好地促进微藻生长,但其效果受红蓝光比例影响较大[15-17]。然而,微藻对不同混合光谱的代谢响应尚未得到很好的研究。
雨生红球藻是虾青素的最佳天然来源,分子和细胞层面上的研究均已表明其生长阶段和虾青素积累阶段对光质的需求不同[17-18]。在分子水平上的研究大多集中在虾青素和脂肪酸的生物合成上[19-20]。强光对虾青素和脂肪酸代谢、MEP途径、细胞壁成分生物合成、光合天线蛋白等相关基因的表达均有影响[21-23]。高浓度CO2可增强光合作用、固碳和糖酵解途径[24]。添加有机碳源可以上调参与三羧酸(TCA)循环、ROS清除和细胞壁生物合成多种基因的表达[25-26]。此外,在分子水平上评价蓝光和红光作用的研究大多集中在雨生红球藻的孢子化阶段[3,27]。光谱对雨生红球藻生长阶段的影响尚未得到很好的研究[28]。本文实验对比了在不同光照情况下雨生红球藻的固碳状况,研究出不同比例红蓝混合光对雨生红球藻固碳的影响,并通过对比不同生长阶段基因,分析了雨生红球藻代谢在时间尺度上的动态变化。
1 实验材料与方法
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1.1 雨生红球藻培养与收获
本研究所使用的雨生红球藻从中国科学院水生生物研究所购得。雨生红球藻在BG11培养基中,培养过程中以40 mL/min的流速持续通入体积分数4%的CO2。分别将雨生红球藻置于红蓝灯泡数比为4:1(以下简称红光)和红蓝灯泡数比为1:4(以下简称蓝光)的红蓝混合光下培养。混合光的光谱分布如图1所示,光照强度见表1。生物质干重采用分光光度法测定。采用离心法收获培养第3天和第7天的雨生红球藻细胞,收获后的细胞在液氮里放置10 min后,冷冻保存用于转录组测序分析。
1.2 转录组测序分析方法
本文通过转录组测序和注释,阐述不同光谱对雨生红球藻生长和代谢的影响。转录组测序分析委托生工生物工程(上海)股份有限公司完成。利用Illumina Hiseq™测序仪进行转录组测序,测序原始数据通过可视化评估和质量剪切后,得到相对准确的有效数据,用于组装成转录样本。使用Trinity(2.4.0版本)拼接得到Transcript序列,之后通过聚类去冗余延伸得到最终的基因序列数据库,作为后续分析的参考序列。利用NCBI Blast+(2.60版本)将转录样本与CDD、KOG、COG、NR、NT、PFAM等多个数据库进行比对,得到其功能注释信息。采用Salmon计算基因表达量,并采用DESeq2进行基因表达差异分析。将差异基因映射到STRING蛋白互作网络数据库(http://string-db.org/)上进行蛋白互作网络构建。使用TopGO进行GO富集分析,使用ClusterProfiler进行KEGG通路和KOG分类富集分析。
2 实验结果与讨论
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2.1 光谱对雨生红球藻生长固碳的影响
在雨生红球藻生长的不同阶段,红、蓝光质对微藻生长的促进程度存在差异。为此,测定了雨生红球藻对不同波段可见光的吸收光谱,结果如图2所示。由图2可见,随着微藻细胞逐渐成熟和微藻细胞浓度的增加,微藻对可见光的需求逐渐增加,但对不同波段的吸收规律不尽相同。随着可见光波长的增加,雨生红球藻对光的吸收总体呈下降趋势,但在650~750 nm波段有1个吸收峰。雨生红球藻对400~500 nm波段的光具有较高的吸收,尤其是在447 nm处有1个吸收峰。在447 nm和684 nm这2个波段上均有吸收峰,这主要是由于叶绿素a和b吸收了此波段的可见光。随着培养天数的增加,雨生红球藻对447 nm和684 nm波段的吸收均呈上升趋势,在雨生红球藻生长初期,对红光(684 nm)的吸收较高,随着生长时间延长,雨生红球藻对蓝光波段(447 nm)的吸收速率显著提高。然而,雨生红球藻对蓝光的强烈吸收会导致光在光合生物反应器中的强烈衰减[28]。笔者前期研究结果表明,随着红蓝混合光中蓝光比例的上升,光在反应器中的辐射路径逐渐变短,并且,微藻细胞浓度越高,其衰减程度越高[15],由于到达反应器中心的光子数减少,蓝光作用下生物质的积累反而不如吸收较少的红光。有研究表明[9],有效光合吸收光谱与微藻的光吸收之间有显著差异。虽然绿藻门小球藻对蓝光波段的吸收较红光波段强烈,但红光波段基于氧气产量的有效光合吸收光谱显著高于蓝光波段。红光和蓝光条件下培养雨生红球藻,红蓝光谱对微藻生长的影响如图3所示。红光条件下的雨生红球藻第3天的生长速率为0.079 g/(L·d),较蓝光条件下雨生红球藻的生长速率高40%。
2.2 光谱调控对雨生红球藻代谢的影响
在雨生红球藻生长初期,不同光谱作用下已出现部分基因表达差异,但差异表达的基因之间区别程度较小;在生长后期,相比于蓝光条件下,红光条件下表达上调基因由3 211个增加到3 365个,表达下调基因由1 064个降低到867个,相比于生长前期,生长后期的上调基因表达差异显著增加。在蓝光条件下,随着生长时间延长,有4 357条基因表达上调,1 866条基因表达下调;在红光条件下,随着生长时间的延长,有1 208条基因表达下调,有3 687条基因表达上调,并且上调基因差异显著。表达差异基因涉及有机物合成、繁殖、电子转移等过程。
在生长初期阶段,与蓝光相比,红光对雨生红球藻的多种生物学过程均具有显著促进作用。如:种子发育、种子萌发、激素水平调控、细胞代谢过程调控、形态发生相关发育生长、生长素运输过程、氮化合物代谢过程调控、金属离子运输、以及运动鞭毛发育等。这说明红光条件下细胞代谢活跃,激素调节和物质传输水平较高,细胞繁殖发育较旺盛,红光作用下雨生红球藻细胞质能传递与细胞发育过程更活跃。此外,红光条件下运动鞭毛发育过程更活跃,说明红光条件下更容易形成具有双鞭毛的游动细胞,细胞运动性更佳。而在蓝光作用下,生物过程包括细胞质转运、蛋白修饰,细胞器结构形态发生损伤应激、次级代谢过程等,较红光条件下更活跃。说明蓝光条件下的雨生红球藻细胞较同时期红光条件下的细胞更成熟,具有更强的次级代谢产物合成能力和抗损伤能力。
雨生红球藻生长后期,红光条件下与细胞发育和形态发生过程相关的基因表达较蓝光条件下显著上调。表达上调差异基因涉及的生物学过程主要为多细胞生物过程、多细胞生物发育、发育过程、细胞结构发育、细胞结构形态发生、生殖系统发育、芽系统形态发生、次生代谢过程、胚胎后植物形态发生等;主要细胞定位在细胞壁、细胞膜、细胞外围、ATPase酶复合体、外部包封结构、叶绿体类囊体;主要分子功能为作用于糖基键的水解酶、主要活性跨膜转运蛋白、耦合跨膜移动的ATPase酶、P-P键水解酶、纤维素酶、跨膜转运蛋白。与蓝光条件下相比,红光作用下有机氮化合物生物合成过程相关基因表达下调,蛋白质折叠、核糖体结构、核苷磷酸结合、碳水化合物衍生物等分子功能相关基因表达也较蓝光下调,说明红光作用下蛋白质等合成和积累过程较蓝光作用下减弱。
综上所述,在雨生红球藻整个绿色生长阶段,红光作用下的代谢过程和质能传递过程均较蓝光活跃,红光细胞发育相比与蓝光具有滞后性。在生长初期,红光条件下的细胞具有较高的激素水平,繁殖活动旺盛,细胞形态以具有双鞭毛的游动细胞为主;而蓝光条件下的细胞繁殖缓慢,但细胞发育完善,细胞较同时期红光条件下的细胞更成熟,具有较高的次级代谢水平和抗损伤能力。在生长后期,红光条件下的细胞则由旺盛繁殖阶段转入细胞发育阶段,质能传递过程活跃,但蛋白质和碳水化合物合成较蓝光条件下略缓慢。所以,红光更有利于种群的扩张,而蓝光则更有利于细胞个体生长。
在红光作用下,随着生长时间的延长,细胞质体、叶绿体类囊体及非膜细胞器上均出现基因表达下调,具体表现为转录过程、细胞氮化合物生物合成过程、氨基化合物生物合成过程、核糖核蛋白复合体组装、肽合成和代谢过程等相关基因表达下调。在生长后期,次生代谢过程、生殖系统发育、孢子发育过程相关基因表达上调。与红光条件下不同,蓝光条件下随生长时间延长表达下调基因主要出现在具膜细胞器上,类囊体上差异表达基因居多,并且,次生代谢过程和孢子发育等过程相关基因表达在生长前期较高,但差异不明显。蓝光条件下,生长后期的雨生红球藻细胞生物调节、化学内稳态、代谢过程的调节功能均强于生长初期。
2.3 代谢途径对光谱调控的响应机制
2.3.1 生长前期雨生红球藻对光谱的响应
绿色生长前期红蓝光质对雨生红球藻代谢基因表达的影响如图4所示。红光和蓝光光质条件下,雨生红球藻生长前期在生物质积累、能量传递、光合作用、转录和应激性等方面表现出显著差异。在生物质积累方面,红光作用下缬氨酸、亮氨酸、异亮氨酸、精氨酸和脯氨酸等氨基酸的代谢途径活跃,其中mmsA、ilvE、PCD和PRODH等基因表达均较蓝光作用下提高12倍以上。但红光条件下淀粉与蔗糖代谢较蓝光略有降低。在能量传递方面,红光作用下的雨生红球藻表达显著高于蓝光,具体表现在糖酵解途径、三羧酸(TCA)循环、氧化磷酸化途径、丙酮酸代谢途径和辅酶Q合成途径相关基因表达上调,其中在糖酵解途径上,TPI表达上调14.78倍。TPI是一种催化甘油醛-3-磷酸(G3P)和磷酸二羟基丙酮(DHAP)之间相互转化的酶[29],TPI含量的增加有助于维持G3P与DHAP之间的动态平衡,稳定能量代谢通路[30]。TCA循环作为1个中枢代谢途径,是有氧条件下提供细胞能量的主要来源[31]。柠檬酸合成酶(CS)催化TCA和乙醛酸循环的第1个反应,在TCA循环中具有重要作用。红光条件下,CS表达上调13.45倍。在氧化磷酸化途径上,SdhA表达上调14.35倍。此外,SdhA蛋白还发挥着TCA酶的作用,还与硫代谢通信,参与调节氧化还原稳态[32],其表达量影响细胞生长。在辅酶Q合成途径上pchA基因表达上调2.6倍;在丙酮酸代谢途径上,二氢硫辛酰胺脱氢酶(dihydrolipoamide dehydrogenase,dld)基因表达上调13.62倍。生长前期,红光和蓝光条件下光合作用差异较小,且集中在光反应阶段。类囊体上,在能量转换中起重要作用的ATPF0C基因,在红光条件下表达较蓝光条件下上调2.08倍,而D1蛋白基因psba则表达下调24%,说明蓝光作用下PSII的放氧活性略高于红光。红光条件下,核糖体的生物合成途径、核糖体途径和核糖核酸RNA转运途径相关基因均较蓝光条件下表达上调,说明在红光作用下,细胞分裂繁殖较为旺盛。在应激性方面,AMPK(AMP-activated protein kinase)信号途径相关基因S6K在红光条件下较蓝光表达上调13.04倍。AMPK是细胞代谢的中心调节因子之一,在调节生长和重编程代谢中起着至关重要的作用[33]。核糖体蛋白S6激酶S6K,基因可以应答诸多环境信号进而调控植物的生长发育[34]。蓝光条件下,外源性物质代谢途径相关基因较红光条件下表达略高,如ROS清除相关的ferritin基因,说明蓝光会让细胞的发育更完善,提高其次级代谢水平。
2.3.2 生长后期雨生红球藻对光谱的响应
绿色生长后期,红蓝光质对雨生红球藻代谢基因表达的影响如图5所示。由图5可见,生长后期,红光条件下的雨生红球藻在生物质积累和转录方面均较蓝光条件下显著下调。在生物质积累方面,精氨酸和脯氨酸代谢途径PGAM基因表达下调15.61倍,甘氨酸、丝氨酸和苏氨酸代谢途径pssA基因表达下调14.78倍,AMT基因下调4.23倍,缬氨酸、亮氨酸和异亮氨酸生物代谢途径ilvC基因表达下调13.11倍,mmsA基因表达下调3.39倍,脯氨酸、缬氨酸和异亮氨酸可作为有机渗透剂,说明在蓝光条件下雨生红球藻细胞具有更强的渗透调节能力[35]。红光条件下,嘌呤代谢途径PFAS基因表达下调14.46倍,嘧啶代谢途径二氢乳清酸脱氢酶DHODH,基因表达下调15.24倍。由此可见,雨生红球藻后期,蓝光条件下有机氮化合物的代谢较红光条件下活跃。雨生红球藻与淀粉和蔗糖代谢、脂肪酸合成代谢相关基因表达上调,如ACSL、FAB2等基因。雨生红球藻生长后期,红光下的能量传递过程仍较蓝光活跃。糖酵解途径的PK基因表达上调4.6倍。PK是糖酵解的最终酶,它将磷酸烯醇式丙酮酸PEP,不可逆地转化为丙酮酸,同时产生腺苷三磷酸ATP[36]。氧化磷酸化途径的cyob基因(将氢醌氧化为醌)表达上调14.53倍。在光合作用方面,生长后期的雨生红球藻在固碳途径和光反应途径上均表现出光质作用的差异。在固碳途径中,丙酮酸被丙酮酸磷酸双激酶PPDK,基因催化生成磷酸烯醇丙酮酸(PEP),充足的光照可以促进PPDK的表达[37]。红光条件下PPDK表达量是蓝光条件下的4.98倍。PPDK的上调可能预示着生长后期蓝光光照不足。生长后期,红光增加了光捕获复合体LHC,向PSI和PSII的能量转移,PSII相关基因在红光下上调5.1倍。光系统I捕光复合体1 LHCA1,捕光复合物相关基因在红光下下调。蓝光则促进了隐花色素的表达,从而触发叶绿素合成、光收集复合物和氮代谢[14]
2.3.3 红光条件下雨生红球藻对光谱调控的差异响应
红光条件下生长前期与后期雨生红球藻代谢基因表达差异如图6所示。总体上,红光条件下雨生红球藻生长前期的能量转化、光合作用和转录水平均高于生长后期,但生物质的积累水平却较后期低,脂肪酸合成、淀粉和蔗糖代谢途径相关基因均呈现不同程度的下调。这说明红光作用下生长前期个体生长较后期缓慢,能量主要用于细胞发育与繁殖。生长前期,氧化磷酸化代谢和丙酮酸代谢活跃,其中,dld基因表达上调13.62倍,F型ATPase相关基因atpF和atpB表达分别上调2.34和3.75倍。F型腺苷三磷酸酶ATPase,基因是氧化磷酸化偶联因子,通过合成和水解ATP在维持细胞能量水平方面起着关键作用[38]。而在生长后期,糖酵解和TCA循环代谢则更为活跃。生长前期PK和PPDK的表达量较后期均下调3倍以上。在光合作用方面,除了D1蛋白相关PsbA基因在前期表达略低于后期外,其余生长前期PSII相关基因表达均高于后期,此外,PSI相关基因表达量上调15.58倍。生长前、后期转录水平的差异主要体现在核糖体途径上,相关基因表达上调倍数在1.75~13.73。
2.3.4 蓝光条件下雨生红球藻对光谱调控的差异响应
蓝光条件下,随生长时间延长雨生红球藻代谢基因表达差异如图7所示。总体而言,蓝光条件下雨生红球藻生长前期的生物质积累、能量转化、应激性和转录水平均低于生长后期,但光合作用水平高于后期。生长前后时期,生物质积累差异主要由蛋白质代谢差异产生。在生长前期,甘氨酸、丝氨酸、苏氨酸、缬氨酸、亮氨酸、异亮氨酸、精氨酸和脯氨酸等氨基酸代谢途径相关基因表达均较生长后期下调,下调倍数均在10以上。淀粉和蔗糖代谢相关基因MGAM下调14.86倍。
氮代谢途径相关基因NRT下降1.32倍。能量转化方面,生长前期较后期糖酵解相关基因TPI表达下调3.7倍,丙酮酸代谢相关dld基因表达下调14.06倍,氧化磷酸化途径F型ATPase相关基因表达略有上调,多磷酸盐激酶ppk1和细胞色素o泛醇氧化酶亚基cyoD基因表达均下调13倍以上。在生长后期,光合作用活性显著低于生长前期,尤其是在PSII系统和细胞色素b/f复合物上表达差异尤为显著,如前期光系统II细胞色素b559亚基βPsbF基因表达上调12.92倍,光系统II PsbJ蛋白PsbJ基因表达上调13.8倍,细胞色素b6-f复合体亚基PetG基因表达上调2.34倍。应激方面,生长前、后期表达差异主要体现在二元组分系统上。二元组分信号转导系统使细胞能够感知、响应和适应环境或细胞内状态的变化。每个二元组分系统由1个传感器蛋白组氨酸激酶(HK)和1个反应调节器(RR)组成。在典型的双组分通路中,传感器HK磷酸化其自身的保守His残基,以响应环境中的信号。随后,HK的磷酸化基转移到RR上的特定Asp残基上。激活的RR可以影响细胞生理学的变化,通常是通过调节基因表达。因此,双组分通路通常通过诱导转录的变化,使细胞感知并对刺激做出反应。在生长后期,二元组份系统的活性远高于生长前期,说明细胞化学内稳态,代谢过程的调节功能有所提升。
3 结论
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本文通过对比不同红蓝光配比条件下,雨生红球藻的生长固碳效率,得到最佳光谱比例,利用高通量转录组测序,从分子层面揭示了雨生红球藻生长固碳对光质变化的动态响应过程,从生物量积累、能量传递、光合作用、胁迫响应和转录水平等方面全面描述了雨生红球藻对光谱调节的响应机制。结果表明,雨生红球藻在营养生长过程中对光质的需求是变化的。在生长前期,需要光照强度较低的红光为主的红蓝混合光促进生长繁殖;在生长后期,需要光照强度较大的蓝光为主的红蓝混合光提高储能物质积累和细胞ROS应激性,以保障进一步强光条件下绿色细胞向红色细胞高效转变,促进虾青素等高附加值次级代谢产物的积累。以上研究为大规模培养雨生红球藻,提高固碳效率提供了光质调节的可靠理论依据,为雨生红球藻固碳和生物质多联产的工业化应用提供了有益指导。
基金
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  • 浙江科技大学基本科研业务费专项资金项目(2023QN028)
  • 国家自然科学基金项目(51906219)
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doi: 10.19666/j.rlfd.202411231
  • 接收时间:2024-11-26
  • 首发时间:2026-03-05
  • 出版时间:2025-06-25
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  • 收稿日期:2024-11-26
基金
Fundamental Research Funds of Zhejiang University of Science and Technology(2023QN028)
浙江科技大学基本科研业务费专项资金项目(2023QN028)
National Natural Science Foundation of China(51906219)
国家自然科学基金项目(51906219)
作者信息
    1.浙江科技大学能源与环境系统工程系,浙江 杭州 310023
    2.中国计量大学标准化学院,浙江 杭州 310018

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李珂(1987),女,博士,副教授,主要研究方向为生物固碳、碳中和技术,
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Percentage of total
species (%)
鹅膏菌科Amanitaceae 2 11 5.26 鹅膏菌属 Amanita 10 4.78
小菇科 Mycenaceae 2 12 5.74 丝盖伞属 Inocybe 5 2.39
多孔菌科 Polyporaceae 8 14 6.70 蜡蘑属 Laccaria 5 2.39
红菇科 Russulaceae 3 23 11.00 小皮伞属 Marasmius 6 2.87
小菇属 Mycena 11 5.26
光柄菇属 Pluteus 5 2.39
红菇属 Russula 17 8.13
栓菌属 Trametes 5 2.39
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