Improvement of enzymatic saccharification yield in Arabidopsis thaliana by ectopic expression of the rice SUB1A-1 transcription factor

Improvement of enzymatic saccharification yield in Arabidopsis thaliana by ectopic expression of the rice SUB1A-1 transcription factor

Saccharification of polysaccharides releases monosaccharides that can be used by ethanol-producing microorganisms in biofuel production. To improve plant biomass as a raw material for saccharification, factors controlling the accumulation and structure of carbohydrates must be identified. Rice SUB1A...

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Main Authors: Lizeth Núñez-López, Andrés Aguirre-Cruz, Blanca Estela Barrera-Figueroa, Julián Mario Peña-Castro
Format: Article
Language:English
Published: PeerJ Inc. 2015-03-01
Series:PeerJ
Subjects:
Bioenergy
Biomass
SUBMERGENCE1
Starch
Bioethanol
Transcription factor
Online Access:https://peerj.com/articles/817.pdf
id doaj-8c2558eb99154271a42451a976ab3b9c
record_format Article
spelling doaj-8c2558eb99154271a42451a976ab3b9c2020-11-24T22:58:03ZengPeerJ Inc.PeerJ2167-83592015-03-013e81710.7717/peerj.817817Improvement of enzymatic saccharification yield in Arabidopsis thaliana by ectopic expression of the rice SUB1A-1 transcription factorLizeth Núñez-López0Andrés Aguirre-Cruz1Blanca Estela Barrera-Figueroa2Julián Mario Peña-Castro3Laboratorio de Biotecnología Vegetal, Instituto de Biotecnología, Universidad del Papaloapan, Tuxtepec, Oaxaca, MéxicoTaller de Alimentos, Instituto de Biotecnología, Universidad del Papaloapan, Tuxtepec, Oaxaca, MéxicoLaboratorio de Biotecnología Vegetal, Instituto de Biotecnología, Universidad del Papaloapan, Tuxtepec, Oaxaca, MéxicoLaboratorio de Biotecnología Vegetal, Instituto de Biotecnología, Universidad del Papaloapan, Tuxtepec, Oaxaca, MéxicoSaccharification of polysaccharides releases monosaccharides that can be used by ethanol-producing microorganisms in biofuel production. To improve plant biomass as a raw material for saccharification, factors controlling the accumulation and structure of carbohydrates must be identified. Rice SUB1A-1 is a transcription factor that represses the turnover of starch and postpones energy-consuming growth processes under submergence stress. Arabidopsis was employed to test if heterologous expression of SUB1A-1 or SUB1C-1 (a related gene) can be used to improve saccharification. Cellulolytic and amylolytic enzymatic treatments confirmed that SUB1A-1 transgenics had better saccharification yield than wild-type (Col-0), mainly from accumulated starch. This improved saccharification yield was developmentally controlled; when compared to Col-0, young transgenic vegetative plants yielded 200–300% more glucose, adult vegetative plants yielded 40–90% more glucose and plants in reproductive stage had no difference in yield. We measured photosynthetic parameters, starch granule microstructure, and transcript abundance of genes involved in starch degradation (SEX4, GWD1), juvenile transition (SPL3-5) and meristematic identity (FUL, SOC1) but found no differences to Col-0, indicating that starch accumulation may be controlled by down-regulation of CONSTANS and FLOWERING LOCUS T by SUB1A-1 as previously reported. SUB1A-1 transgenics also offered less resistance to deformation than wild-type concomitant to up-regulation of AtEXP2 expansin and BGL2 glucan-1,3,-beta-glucosidase. We conclude that heterologous SUB1A-1 expression can improve saccharification yield and softness, two traits needed in bioethanol production.https://peerj.com/articles/817.pdfBioenergyBiomassSUBMERGENCE1StarchBioethanolTranscription factor
collection DOAJ
language English
format Article
sources DOAJ
author Lizeth Núñez-López
Andrés Aguirre-Cruz
Blanca Estela Barrera-Figueroa
Julián Mario Peña-Castro
spellingShingle Lizeth Núñez-López
Andrés Aguirre-Cruz
Blanca Estela Barrera-Figueroa
Julián Mario Peña-Castro
Improvement of enzymatic saccharification yield in Arabidopsis thaliana by ectopic expression of the rice SUB1A-1 transcription factor
PeerJ
Bioenergy
Biomass
SUBMERGENCE1
Starch
Bioethanol
Transcription factor
author_facet Lizeth Núñez-López
Andrés Aguirre-Cruz
Blanca Estela Barrera-Figueroa
Julián Mario Peña-Castro
author_sort Lizeth Núñez-López
title Improvement of enzymatic saccharification yield in Arabidopsis thaliana by ectopic expression of the rice SUB1A-1 transcription factor
title_short Improvement of enzymatic saccharification yield in Arabidopsis thaliana by ectopic expression of the rice SUB1A-1 transcription factor
title_full Improvement of enzymatic saccharification yield in Arabidopsis thaliana by ectopic expression of the rice SUB1A-1 transcription factor
title_fullStr Improvement of enzymatic saccharification yield in Arabidopsis thaliana by ectopic expression of the rice SUB1A-1 transcription factor
title_full_unstemmed Improvement of enzymatic saccharification yield in Arabidopsis thaliana by ectopic expression of the rice SUB1A-1 transcription factor
title_sort improvement of enzymatic saccharification yield in arabidopsis thaliana by ectopic expression of the rice sub1a-1 transcription factor
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2015-03-01
description Saccharification of polysaccharides releases monosaccharides that can be used by ethanol-producing microorganisms in biofuel production. To improve plant biomass as a raw material for saccharification, factors controlling the accumulation and structure of carbohydrates must be identified. Rice SUB1A-1 is a transcription factor that represses the turnover of starch and postpones energy-consuming growth processes under submergence stress. Arabidopsis was employed to test if heterologous expression of SUB1A-1 or SUB1C-1 (a related gene) can be used to improve saccharification. Cellulolytic and amylolytic enzymatic treatments confirmed that SUB1A-1 transgenics had better saccharification yield than wild-type (Col-0), mainly from accumulated starch. This improved saccharification yield was developmentally controlled; when compared to Col-0, young transgenic vegetative plants yielded 200–300% more glucose, adult vegetative plants yielded 40–90% more glucose and plants in reproductive stage had no difference in yield. We measured photosynthetic parameters, starch granule microstructure, and transcript abundance of genes involved in starch degradation (SEX4, GWD1), juvenile transition (SPL3-5) and meristematic identity (FUL, SOC1) but found no differences to Col-0, indicating that starch accumulation may be controlled by down-regulation of CONSTANS and FLOWERING LOCUS T by SUB1A-1 as previously reported. SUB1A-1 transgenics also offered less resistance to deformation than wild-type concomitant to up-regulation of AtEXP2 expansin and BGL2 glucan-1,3,-beta-glucosidase. We conclude that heterologous SUB1A-1 expression can improve saccharification yield and softness, two traits needed in bioethanol production.
topic Bioenergy
Biomass
SUBMERGENCE1
Starch
Bioethanol
Transcription factor
url https://peerj.com/articles/817.pdf
work_keys_str_mv AT lizethnunezlopez improvementofenzymaticsaccharificationyieldinarabidopsisthalianabyectopicexpressionofthericesub1a1transcriptionfactor
AT andresaguirrecruz improvementofenzymaticsaccharificationyieldinarabidopsisthalianabyectopicexpressionofthericesub1a1transcriptionfactor
AT blancaestelabarrerafigueroa improvementofenzymaticsaccharificationyieldinarabidopsisthalianabyectopicexpressionofthericesub1a1transcriptionfactor
AT julianmariopenacastro improvementofenzymaticsaccharificationyieldinarabidopsisthalianabyectopicexpressionofthericesub1a1transcriptionfactor
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