Article(id=1148993961932419561, tenantId=1146029695717560320, journalId=1146031712061968385, issueId=1148993956857307504, articleNumber=null, orderNo=null, doi=10.12211/2096-8280.2024-013, pmid=null, cstr=null, oa=null, hot=null, price=null, onlineType=0, articleFormat=0, articleType=null, articleTypeStr=null, receivedDate=1706976000000, receivedDateStr=2024-02-04, revisedDate=1715097600000, revisedDateStr=2024-05-08, acceptedDate=null, acceptedDateStr=null, onlineDate=1751871107800, onlineDateStr=2025-07-07, pubDate=1735574400000, pubDateStr=2024-12-31, doiRegisterDate=null, doiRegisterDateStr=null, onlineIssueDate=1751871107800, onlineIssueDateStr=2025-07-07, onlineJustAcceptDate=null, onlineJustAcceptDateStr=null, onlineFirstDate=null, onlineFirstDateStr=null, sourceXml=null, magXml=null, createTime=1751871107800, creator=13701087609, updateTime=1751871107800, updator=13701087609, issue=Issue{id=1148993956857307504, tenantId=1146029695717560320, journalId=1146031712061968385, year='2024', volume='5', issue='6', pageStart='1227', pageEnd='1529', issueExtLink='null', onlineDate='null', pubDate='null', beforeIssueId=null, nextIssueId=null, price=null, status=1, issueComplete=1, articleOrder=1, issueType=-1, specialIssue=null, createTime=1751871106590, creator=13701087609, updateTime=1752057237502, updator=13701087609, preIssue=null, nextIssue=null, ext={EN=IssueExt(id=1149774646557499609, tenantId=1146029695717560320, journalId=1146031712061968385, issueId=1148993956857307504, language=EN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=), CN=IssueExt(id=1149774646557499610, tenantId=1146029695717560320, journalId=1146031712061968385, issueId=1148993956857307504, language=CN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=)}, issueFiles=null}, startPage=1300, endPage=1318, ext={EN=ArticleExt(id=1149994724779192686, articleId=1148993961932419561, tenantId=1146029695717560320, journalId=1146031712061968385, language=EN, title=Progress in biomanufacturing of lipids and single cell protein from one-carbon compounds, columnId=1149894683619635652, journalTitle=Synthetic Biology Journal, columnName=Invited Review, runingTitle=null, highlight=null, articleAbstract=

One-carbon compounds are liquid or gaseous substances that can be naturally occurring or produced in industrial processes, offering the advantages of being abundant, cost-effective, and sustainable to produce. They are anticipated to serve as fundamental raw materials for the next phase of bio-manufacturing, encompassing easily transportable and storable liquid methanol, formic acid, and gaseous CO₂, CO, and CH₄. China is currently focusing on reducing carbon emissions and aims to progressively achieve the targets of carbon peak and carbon neutrality through diverse approaches. Amidst the flourishing landscape of bio-manufacturing, microorganisms are being genetically manipulated using synthetic biology techniques to efficiently harness one-carbon compounds for the creation of high-value products like lipids and single-cell protein. This initiative aims to reduce dependence on imported food and fossil resources, serving as a strategic measure to alleviate food and energy crises. This review presents a comprehensive overview of the most recent advancements in converting one-carbon compounds into valuable oils and single-cell proteins through the utilization of metabolic pathways, chassis genetic modification, and other methodologies involving methylotrophic microorganisms, acetogenic bacteria, yeast, and other microorganisms. It discusses pertinent studies on enhancing molecularly engineered strains through the fermentation process using one-carbon compounds and includes research cases focusing on the production of ultra-long-chain fatty acids. Furthermore, it collates industrial instances related to the conversion of one-carbon compounds from research institutions or companies. Lastly, by addressing the constraints in metabolic pathway design and genetic tools for utilizing one-carbon compound strains, as well as the energy conversion challenges between acetogenic bacteria and lipids-producing microorganisms, it offers foresight into the future opportunities and obstacles encountered in the bio-manufacturing of lipids and single-cell proteins. It suggests advancing inter-disciplinary, efficient systematic integration for fermentation within complex systemic bio-manufacturing processes, driving exploration on the biological conversion of one-carbon compounds, proposing novel solutions to current theoretical and practical challenges, and providing guidance for practical applications and industrial advancements.

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一碳化合物是一类产生于自然界或工业过程中的液态或气态物质，其具有来源广泛、价格低廉、可持续生产的优势，有望成为新一代生物制造关键原料，包括液态的甲醇、甲酸，以及气态的CO₂、CO、CH₄等。在生物制造蓬勃发展的背景下，通过合成生物学手段改造微生物，使之利用一碳化合物高效生产油脂与单细胞蛋白等高附加值产品，降低对粮食、化石资源进口的依赖，成为缓解粮食能源危机的有效战略举措。本文综述了甲基营养型微生物、产乙酸菌以及酵母等微生物通过代谢途径、底盘遗传改造等方法，将一碳化合物转化为高附加值油脂与单细胞蛋白的最新研究进展；介绍了一些通过发酵工艺控制优化分子工程菌株利用一碳化合物的相关研究；同时收集了部分一碳化合物转化相关研究机构或企业的产业化案例。最后，针对一碳化合物利用菌株的代谢通路设计与遗传工具存在的限制问题，以及产乙酸菌与产油微生物之间的能量转化矛盾，展望了未来生物制造油脂与单细胞蛋白的前景和面临的挑战，提出在复杂系统性的生物制造过程中，发展多学科交叉的高效系统集成发酵，以期对一碳化合物的生物转化研究产生推动作用，为攻克目前存在的理论与实践难题提供新思路，并对实际应用与产业化发展提供参考。

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² Shandong Energy Institute，Qingdao 266101，Shandong，China, bio=null, bioImg=null, bioContent=null, aboutCorrespAuthor=null), CN=AuthorExt(id=1164877205793420167, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, authorId=1164877205659202433, language=CN, stringName=赵亮, firstName=null, middleName=null, lastName=null, prefix=null, suffix=null, authorComment=null, nameInitials=null, affiliation=null, department=null, xref=^{1, 2}, address=¹ 中国科学院青岛生物能源与过程研究所，青岛市碳一炼制工程研究中心，中国科学院生物燃料重点实验室，山东 青岛 266101
² 山东能源研究院，山东 青岛 266101, bio={"img":"YznpO+DHQCgc1uazkmJBCA==","content":"

赵亮（1996—），男，硕士，助理工程师。研究方向为解脂耶氏酵母油脂与蛋白发酵工艺优化。E-mail：zhaoliang@qibebt.ac.cn

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赵亮（1996—），男，硕士，助理工程师。研究方向为解脂耶氏酵母油脂与蛋白发酵工艺优化。E-mail：zhaoliang@qibebt.ac.cn

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² 山东能源研究院，山东 青岛 266101, bio={"img":"FgpUAMdLuGQPx0YwWzUW8Q==","content":"

刘自勇（1983—），男，副研究员，硕士生导师。研究方向为厌氧梭菌高效转化木质纤维素和合成气生产生物乙醇、丁醇和长链油脂等。E-mail：liuzy@qibebt.ac.cn

"}, bioImg=FgpUAMdLuGQPx0YwWzUW8Q==, bioContent=

刘自勇（1983—），男，副研究员，硕士生导师。研究方向为厌氧梭菌高效转化木质纤维素和合成气生产生物乙醇、丁醇和长链油脂等。E-mail：liuzy@qibebt.ac.cn

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Analytica Chimica Acta, 2023, 1281: 341902., articleTitle=Process understanding and monitoring: a glimpse into data strategies for miniaturized NIR spectrometers, refAbstract=null), Reference(id=1164877216706998382, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, doi=null, pmid=null, pmcid=null, year=2023, volume=9, issue=2, pageStart=115, pageEnd=null, url=null, language=null, rfNumber=112, rfOrder=127, authorNames=SCHORN-GARCÍA D, EZENARRO J, ACEÑA L, journalName=Fermentation, refType=null, unstructuredReference= SCHORN-GARCÍA D, EZENARRO J, ACEÑA L, et al. Spatially offset Raman spectroscopic (SORS) analysis of wine alcoholic fermentation: a preliminary study[J]. 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companyName=null, departmentName=null, remark=⁵ 中国石油化工股份有限公司大连研究院，辽宁 大连 116045)])], figs=[ArticleFig(id=1164877208297419745, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, language=EN, label=Fig. 1, caption=Metabolic pathways of microorganisms utilizing liquid carbon material substrates

(The dashed line represents a multi-step reaction) H6P—Hexulose-6-phosphate; Ru5P—Ribulose-5-phosphate; F6P—Fructose-6-phosphate; DHA—Dihydroxyacetone; Xu5P—Ribulose-5-phosphate; DHAP—Dihydroxyacetone phosphate; G3P—Glyceraldehyde-3-phosphate; Pyr—Pyruvate; GCS—Glycine cleavage system; 2GPA—Glycerate 2P; OAA—Oxaloacetic acid

, figureFileSmall=z5b4+e7YHrT41lqxUSfjAg==, figureFileBig=GJQiv+qIf7gMleR3Hc/Ryg==, tableContent=null), ArticleFig(id=1164877208356140002, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, language=CN, label=图1, caption=微生物利用液态一碳原料底物的代谢途径

（虚线代表多步反应）H6P—6-磷酸己酮糖；Ru5P—5-磷酸核糖；F6P—6-磷酸果糖；DHA—二羟基丙酮；Xu5P—5-磷酸木酮糖；DHAP—磷酸二羟丙酮；G3P—3-磷酸甘油醛；Pyr—丙酮酸；GCS—甘氨酸裂解体系；2GPA—2-磷酸甘油酸；OAA—草酰乙酸

, figureFileSmall=z5b4+e7YHrT41lqxUSfjAg==, figureFileBig=GJQiv+qIf7gMleR3Hc/Ryg==, tableContent=null), ArticleFig(id=1164877208410665955, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, language=EN, label=Fig.2, caption=Fed-batch fermentation of O. polymorpha in bioreactor^[15]

FFA—Free fatty acids; DCW—Dry cell weight

, figureFileSmall=HR3bw65WQqA3eM1g/PQsXg==, figureFileBig=LaVWKcTrJn3M0xlX3eBLIQ==, tableContent=null), ArticleFig(id=1164877208473580516, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, language=CN, label=图2, caption= O. polymorpha脂肪酸高产菌株分批补料发酵^［15］

FFA—游离脂肪酸；DCW—细胞干重

, figureFileSmall=HR3bw65WQqA3eM1g/PQsXg==, figureFileBig=LaVWKcTrJn3M0xlX3eBLIQ==, tableContent=null), ArticleFig(id=1164877208523912165, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, language=EN, label=Fig. 3, caption=Pathways of lipid synthesis using glucose or acetate as substrate

(The dashed line represents a multi-step reaction) G-6P—Glucose-6-phosphate; 6P-Gluconate—6-Phosphogluconate; Ribulose-5P—Ribulose-5-phosphate; Ribose-5P—Ribose-5-phosphate; F-6P—Fructose-6-phosphate; F-1,6-2P—Fructose-1,6-phosphate; G-3P—3-Phosphoglyceraldehyde; PEP—Phosphoenolpyruvate; Pyr—Pyruvate; Cit—Citrate; Aco—cis: aconitate; Icit—Isocitrate; Akg—2-Oxo-glutarate; Suc—Succinate; Mal—Malate; Oaa—Oxaloacetate; ACL—ATP-citrate lyase; ER—Endoplasmic reticulum; TAG—Triglyceride

, figureFileSmall=uFSerLrnSJfw1x1upBJvoQ==, figureFileBig=YUwrufd8n190Q3j4MbVz0g==, tableContent=null), ArticleFig(id=1164877208599409638, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, language=CN, label=图3, caption=以葡萄糖或乙酸盐为底物的油脂合成途径

（虚线代表多步反应）G-6P—6-磷酸葡萄糖；6P-Gluconate—6-磷酸葡糖酸；Ribulose-5P—5-磷酸核酮糖；Ribose-5P—5-磷酸核糖；F-6P—6-磷酸果糖；F-1，6-2P—1，6-二磷酸果糖；G-3P—3-磷酸甘油醛；PEP—磷酸烯醇式丙酮酸；Pyr—丙酮酸；Cit—柠檬酸；Aco—乌头酸；Icit—异柠檬酸；Akg—α-酮戊二酸；Suc—琥珀酸；Mal—苹果酸；Oaa—草酰乙酸；ACL—ATP-柠檬酸裂解酶；ER—内质网；TAG—甘油三酯

, figureFileSmall=uFSerLrnSJfw1x1upBJvoQ==, figureFileBig=YUwrufd8n190Q3j4MbVz0g==, tableContent=null), ArticleFig(id=1164877208662324199, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, language=EN, label=Fig.4, caption=The biochemical synthesis pathway of single cell proteins in methanotroph

(The dashed line represents a step with multiple reactions)

, figureFileSmall=UDp7Apr0S0b2AG3/j/XBvQ==, figureFileBig=76rsoVszFIHmqHmv8kml5w==, tableContent=null), ArticleFig(id=1164877208712655848, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, language=CN, label=图4, caption=甲烷营养菌的单细胞蛋白生化合成途径

（虚线代表多步反应）

, figureFileSmall=UDp7Apr0S0b2AG3/j/XBvQ==, figureFileBig=76rsoVszFIHmqHmv8kml5w==, tableContent=null), ArticleFig(id=1164877208758793193, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, language=EN, label=Fig.5, caption=Protein manufacturing process using C₁ gas as substrate, figureFileSmall=MAnV1OJUP60a0gocTAo2ag==, figureFileBig=3UeHHwwoE1bU0W47F8koSg==, tableContent=null), ArticleFig(id=1164877208800736234, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, language=CN, label=图5, caption=以一碳气体为底物的蛋白质制造工艺, figureFileSmall=MAnV1OJUP60a0gocTAo2ag==, figureFileBig=3UeHHwwoE1bU0W47F8koSg==, tableContent=null), ArticleFig(id=1164877208846873579, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, language=EN, label=Table 1, caption=

Microorganisms capable of utilizing one-carbon compounds to synthesize fatty acids and single-cell proteins

, figureFileSmall=null, figureFileBig=null, tableContent=

微生物类型	菌种	底物	代谢途径	代谢改造	产量/产率		产物	参考文献
天然甲醇酵母	P. pastoris	甲醇	XuMP途径	—	蛋白80.6 g/L	脂肪酸23.4 g/L	脂肪酸，单细胞蛋白	[12-14]
	O. polymorpha	甲醇		—	生物量26.6 g/L	脂肪酸15.9 g/L		[15]
	C. boidinii	甲醇		—	3.4 g/L		单细胞蛋白	[16-18]
天然甲醇细菌	M. extorquens	甲醇	RuMP途径，丝氨酸循环	—	干重561 g/L		单细胞蛋白	[19-21]
	B. methanolicus	甲醇		—	干重30～144 g/L		单细胞蛋白	[22-24]
非天然甲醇酵母	S. cerevisiae	甲醇	XuMP途径	Mdh与XuMP途径共表达	—		单细胞蛋白	[25]
	Y. lipolytica	甲醇	RuMP、XuMP途径	表达杂合RuMP和XuMP途径基因，敲除内源甲醛脱氢酶	—		单细胞蛋白	[26]
大肠杆菌	E. coli	甲醇、甲酸、CO2	还原性甘氨酸途径、CBB循环	利用还原性甘氨酸途径重新设计了中心碳代谢	(2.8 ± 0.8) g干重/mol 甲酸		单细胞蛋白	[27-28]
天然甲酸利用微生物	P. communis	甲酸	丝氨酸循环、四氢叶酸循环、糖酵解途径、TCA循环	—	1.7 g/L		单细胞蛋白	[29-30]
需钠弧菌	V. natriegens	甲酸	丝氨酸循环、TCA循环	重新连接丝氨酸循环和TCA循环	—		单细胞蛋白	[31]
产乙酸菌	Clostridium autoethanogenum	CO、CO2	Wood-Ljungdahl途径	—	1 × 108 t/a		单细胞蛋白	[32-34]
	Clostridium ljungdahlii	CO、CO2	Wood-Ljungdahl途径	—	2 g/L		单细胞蛋白	[33,35-36]
氢氧化细菌	Hydrogenophaga	CO、CO2	反向三羧酸循环、CBB循环、Wood-Ljungdahl途径	—	0.9～1.7 g/L		单细胞蛋白	[37]
	Xanthobacter	CO、CO2		—			单细胞蛋白
	Aquamicrobium	CO、CO2		—			单细胞蛋白
	Defluviimonas	CO、CO2		—			单细胞蛋白
甲烷氧化菌	Proteobacteria-γ亚型	CH4	RuMP途径	—	4 kg/(m3·h)		单细胞蛋白	[38-40]
	Proteobacteria-α亚型	CH4	丝氨酸循环	—	—		单细胞蛋白
	Verrucomicrobia	CH4	CBB循环	—	—		单细胞蛋白	[39,41]

), ArticleFig(id=1164877208913982444, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993961932419561, language=CN, label=表1, caption=

部分可利用一碳化合物合成脂肪酸和单细胞蛋白的微生物

, figureFileSmall=null, figureFileBig=null, tableContent=

微生物类型	菌种	底物	代谢途径	代谢改造	产量/产率		产物	参考文献
天然甲醇酵母	P. pastoris	甲醇	XuMP途径	—	蛋白80.6 g/L	脂肪酸23.4 g/L	脂肪酸，单细胞蛋白	[12-14]
	O. polymorpha	甲醇		—	生物量26.6 g/L	脂肪酸15.9 g/L		[15]
	C. boidinii	甲醇		—	3.4 g/L		单细胞蛋白	[16-18]
天然甲醇细菌	M. extorquens	甲醇	RuMP途径，丝氨酸循环	—	干重561 g/L		单细胞蛋白	[19-21]
	B. methanolicus	甲醇		—	干重30～144 g/L		单细胞蛋白	[22-24]
非天然甲醇酵母	S. cerevisiae	甲醇	XuMP途径	Mdh与XuMP途径共表达	—		单细胞蛋白	[25]
	Y. lipolytica	甲醇	RuMP、XuMP途径	表达杂合RuMP和XuMP途径基因，敲除内源甲醛脱氢酶	—		单细胞蛋白	[26]
大肠杆菌	E. coli	甲醇、甲酸、CO2	还原性甘氨酸途径、CBB循环	利用还原性甘氨酸途径重新设计了中心碳代谢	(2.8 ± 0.8) g干重/mol 甲酸		单细胞蛋白	[27-28]
天然甲酸利用微生物	P. communis	甲酸	丝氨酸循环、四氢叶酸循环、糖酵解途径、TCA循环	—	1.7 g/L		单细胞蛋白	[29-30]
需钠弧菌	V. natriegens	甲酸	丝氨酸循环、TCA循环	重新连接丝氨酸循环和TCA循环	—		单细胞蛋白	[31]
产乙酸菌	Clostridium autoethanogenum	CO、CO2	Wood-Ljungdahl途径	—	1 × 108 t/a		单细胞蛋白	[32-34]
	Clostridium ljungdahlii	CO、CO2	Wood-Ljungdahl途径	—	2 g/L		单细胞蛋白	[33,35-36]
氢氧化细菌	Hydrogenophaga	CO、CO2	反向三羧酸循环、CBB循环、Wood-Ljungdahl途径	—	0.9～1.7 g/L		单细胞蛋白	[37]
	Xanthobacter	CO、CO2		—			单细胞蛋白
	Aquamicrobium	CO、CO2		—			单细胞蛋白
	Defluviimonas	CO、CO2		—			单细胞蛋白
甲烷氧化菌	Proteobacteria-γ亚型	CH4	RuMP途径	—	4 kg/(m3·h)		单细胞蛋白	[38-40]
	Proteobacteria-α亚型	CH4	丝氨酸循环	—	—		单细胞蛋白
	Verrucomicrobia	CH4	CBB循环	—	—		单细胞蛋白	[39,41]

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