Recombinant protein production in the filamentous fungus Trichoderma

[Display omitted] •Trichoderma are important workhorses for recombinant protein production.•Trichoderma sp. with better enzyme formula for biomass degradation has been developed.•Trichoderma hosts for high purity enzyme production expanded its application.•State-of-art biotechnologies sped up the de...

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Published inChinese journal of chemical engineering Vol. 30; no. 2; pp. 74 - 81
Main Authors Wei, Huiling, Wu, Mengyue, Fan, Aili, Su, Haijia
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2021
Beijing Key Laboratory of Bioprocess,College of Life Science and Technology,Beijing University of Chemical Technology,North Third Ring Road 15,Chaoyang District,Beijing 100029,China
Subjects
Biotechnology
Catalysis
Heterologous expression
Protein
Trichoderma
Trichoderma
Biotechnology
Catalysis
Protein
Heterologous expression
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Abstract [Display omitted] •Trichoderma are important workhorses for recombinant protein production.•Trichoderma sp. with better enzyme formula for biomass degradation has been developed.•Trichoderma hosts for high purity enzyme production expanded its application.•State-of-art biotechnologies sped up the development of Trichoderma hosts. Trichoderma is an ascomycete fungal genus widely distributed in the soils. Several species were selected, engineered and utilized for protein production for decades. The high extracellular secretion capability and eukaryotic post-translational modification machinery make Trichoderma spp. particularly interesting hosts. In this review, we summarized the recombinant proteins produced in Trichoderma since 2014, concerning their origins, hosts, promoters, terminators, signal peptides, yields and commonly used media. Meanwhile, strategies and merging trends in protein production and strain engineering are classified and summarized regarding codon optimization, promoter utilization, transcription factor regulation, post-translational modification and proteolytic degradation inhibition. With state-of-art biotechnologies and more available expression platforms, Trichoderma spp. could be more successful hosts to produce recombinant proteins as desired, i.e. better enzyme formula for efficient cellulose degradation or functional protein with high purity and yield.
AbstractList [Display omitted] •Trichoderma are important workhorses for recombinant protein production.•Trichoderma sp. with better enzyme formula for biomass degradation has been developed.•Trichoderma hosts for high purity enzyme production expanded its application.•State-of-art biotechnologies sped up the development of Trichoderma hosts. Trichoderma is an ascomycete fungal genus widely distributed in the soils. Several species were selected, engineered and utilized for protein production for decades. The high extracellular secretion capability and eukaryotic post-translational modification machinery make Trichoderma spp. particularly interesting hosts. In this review, we summarized the recombinant proteins produced in Trichoderma since 2014, concerning their origins, hosts, promoters, terminators, signal peptides, yields and commonly used media. Meanwhile, strategies and merging trends in protein production and strain engineering are classified and summarized regarding codon optimization, promoter utilization, transcription factor regulation, post-translational modification and proteolytic degradation inhibition. With state-of-art biotechnologies and more available expression platforms, Trichoderma spp. could be more successful hosts to produce recombinant proteins as desired, i.e. better enzyme formula for efficient cellulose degradation or functional protein with high purity and yield.
Trichoderma is an ascomycete fungal genus widely distributed in the soils.Several species were selected,engineered and utilized for protein production for decades.The high extracellular secretion capability and eukaryotic post-translational modification machinery make Trichoderma spp.particularly interesting hosts.In this review,we summarized the recombinant proteins produced in Trichoderma since 2014,con-cerning their origins,hosts,promoters,terminators,signal peptides,yields and commonly used media.Meanwhile,strategies and merging trends in protein production and strain engineering are classified and summarized regarding codon optimization,promoter utilization,transcription factor regulation,post-translational modification and proteolytic degradation inhibition.With state-of-art biotechnologies and more available expression platforms,Trichoderma spp.could be more successful hosts to produce recombinant proteins as desired,i.e.better enzyme formula for efficient cellulose degradation or func-tional protein with high purity and yield.
Author Wei, Huiling
Fan, Aili
Wu, Mengyue
Su, Haijia
AuthorAffiliation Beijing Key Laboratory of Bioprocess,College of Life Science and Technology,Beijing University of Chemical Technology,North Third Ring Road 15,Chaoyang District,Beijing 100029,China
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  fullname: Su, Haijia
  email: suhj@mail.buct.edu.cn
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Keywords Trichoderma
Biotechnology
Catalysis
Protein
Heterologous expression
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Beijing Key Laboratory of Bioprocess,College of Life Science and Technology,Beijing University of Chemical Technology,North Third Ring Road 15,Chaoyang District,Beijing 100029,China
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Snippet [Display omitted] •Trichoderma are important workhorses for recombinant protein production.•Trichoderma sp. with better enzyme formula for biomass degradation...
Trichoderma is an ascomycete fungal genus widely distributed in the soils.Several species were selected,engineered and utilized for protein production for...
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SubjectTerms Biotechnology
Catalysis
Heterologous expression
Protein
Trichoderma
Title Recombinant protein production in the filamentous fungus Trichoderma
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