Increased expression of mitochondria-localized carbonic anhydrase activity resulted in an increased biomass accumulation in Arabidopsis thaliana

Jiang, Chunyun; Tholen, Danny; Xu, Jiajia Mercedes; Xin, Changpeng; Zhang, Hui; Zhu, Xin-Guang; Zhao, Yanxiu

doi:10.1007/s12374-014-0330-8

Cited by 25 publications

(19 citation statements)

References 44 publications

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“…In addition, Hu et al (2010) presented evidence showing high expression of bCA2 and bCA4 in mesophyll cells, whereas bCA3 had very low expression in mesophyll cells, while Wang et al (2014) reported very low bCA3 expression in leaves with promoter::GUS studies. Since the other CAs that show significant expression are either in the chloroplast (Fett and Coleman, 1994;Villarejo et al, 2005;Fabre et al, 2007;Burén et al, 2011;Hu et al, 2015) or mitochondria (Fabre et al, 2007;Jiang et al, 2014), we conclude that bCA2 and bCA4 are the most abundant CA isoforms in the cytoplasm. This contention is supported by leaf RNAseq data (Table I), GUS staining (Fig.…”

Section: Discussionmentioning

confidence: 55%

“…More recently, Jiang et al (2014) reported that plants lacking the mitochondrial bCA6 grew slowly on low CO 2 . There have been few studies of other CA isoforms.…”

Section: Discussionmentioning

confidence: 99%

“…bCA1 and bCA5 have been localized to the chloroplast (Fabre et al, 2007;Hu et al, 2015), while bCA2 and bCA3 are found in the cytosol (Fabre et al, 2007). The two other bCAs, bCA4 and bCA6, have been reported to be localized to the plasma membrane (Fabre et al, 2007;Hu et al, 2010Hu et al, , 2015 and the mitochondria (Fabre et al, 2007;Jiang et al, 2014), respectively.…”

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confidence: 99%

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The Cytoplasmic Carbonic Anhydrases βCA2 and βCA4 Are Required for Optimal Plant Growth at Low CO₂

et al. 2016

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Carbonic anhydrases (CAs) are zinc metalloenzymes that interconvert CO 2 and HCO 3 2 . In plants, both a-and b-type CAs are present. We hypothesize that cytoplasmic bCAs are required to modulate inorganic carbon forms needed in leaf cells for carbonrequiring reactions such as photosynthesis and amino acid biosynthesis. In this report, we present evidence that bCA2 and bCA4 are the two most abundant cytoplasmic CAs in Arabidopsis (Arabidopsis thaliana) leaves. Previously, bCA4 was reported to be localized to the plasma membrane, but here, we show that two forms of bCA4 are expressed in a tissue-specific manner and that the two proteins encoded by bCA4 localize to two different regions of the cell. Comparing transfer DNA knockout lines with wild-type plants, there was no reduction in the growth rates of the single mutants, bca2 and bca4. However, the growth rate of the double mutant, bca2bca4, was reduced significantly when grown at 200 mL L 21 CO 2 . The reduction in growth of the double mutant was not linked to a reduction in photosynthetic rate. The amino acid content of leaves from the double mutant showed marked reduction in aspartate when compared with the wild type and the single mutants. This suggests the cytoplasmic CAs play an important but not previously appreciated role in amino acid biosynthesis.Carbonic anhydrases (CAs) are zinc metalloenzymes that catalyze the interconversion of CO 2 and HCO 3 2 . Flowering plants possess members of the aCA, bCA, and gCA families. While all three CA families contain zinc, they clearly have evolved independently (Hewett-Emmett and Tashian, 1996). Most aCAs are monomeric, although there are notable exceptions (Whittington et al., 2001;Hilvo et al., 2008;Suzuki et al., 2010Suzuki et al., , 2011Cuesta-Seijo et al., 2011). The aCA active site contains a single zinc molecule coordinated by three His residues and a water molecule (Liljas et al., 1972). bCAs also contain a zinc active site, although the coordinating molecules are two Cys residues, a His, and a water molecule (Bracey et al., 1994). The active unit of the bCA is a dimer where the active site is located at the interface of the two monomers (Kimber and Pai, 2000). In contrast, gCAs are trimers that have their active site zinc ion situated at the interface of two subunits coordinated by His residues from both subunits (Kisker et al., 1996;Iverson et al., 2000).In Arabidopsis (Arabidopsis thaliana), there are three gCA proteins and two g-like proteins that interact to form an extra structure of complex I of the mitochondrial electron transport chain (Perales et al., 2004;Sunderhaus et al., 2006). Although not active in vitro, gCA has been shown to bind inorganic carbon (Martin et al., 2009), affect complex I levels, plant growth, and gas-exchange rates when deleted (Perales et al., 2004;Soto et al., 2015), and cause plant sterility when ectopically overexpressed ). Arabidopsis has eight aCA genes, but only aCA1, aCA2, and aCA3 appear to be expressed in leaf tissue. aCA1 has been reported to be localized to the c...

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Section: Discussionmentioning

confidence: 55%

“…More recently, Jiang et al (2014) reported that plants lacking the mitochondrial bCA6 grew slowly on low CO 2 . There have been few studies of other CA isoforms.…”

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

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The Cytoplasmic Carbonic Anhydrases βCA2 and βCA4 Are Required for Optimal Plant Growth at Low CO₂

et al. 2016

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“…They found that the expression of mitochondria-localized CA increased when the respiration rate of leaves decreased. Moreover, with an increase in the expression of CA activity, shoot biomass accumulated in Arabidopsis thaliana [18]. In our previous report [19], we found that microalgae promote the dissolution of limestone.…”

Section: Introductionmentioning

confidence: 67%

“…Using a method based on stable carbon isotopes, we quantified the proportion of bicarbonate use by plants [11]. Although the conversion to biomass from bicarbonate by the activity of CA has been proposed in studies of plant biomass production for energy [17,18,20], the mechanism and the capacity for bicarbonate use in plants in karst habitats are not fully understood. In this study, we hypothesized that CA activity of plants increased under drought stress, which produced H 2 O and CO 2 from the bicarbonate (HCO 3 − ) in limestone dissolution of karst soils for use in photosynthesis and biomass production.…”

Section: Introductionmentioning

confidence: 99%

Biomass Production of Three Biofuel Energy Plants’ Use of a New Carbon Resource by Carbonic Anhydrase in Simulated Karst Soils: Mechanism and Capacity

Wang

Xing

et al. 2017

Energies

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Abstract:To determine whether the bicarbonate in karst limestone soil could be used as a new carbon resource for biomass production by the catalysis of carbonic anhydrase (CA), a simulative karst drought stress experiment was designed and performed. Three plants used for biofuel energy,, and Euphorbia lathyris L. (El), were grown under simulated karst drought stress. In response to drought stress, the photosynthesis of the three energy plants was inhibited, but their CA activity increased. The hypothesis was confirmed by plant physiological and stable isotope techniques. The obtained results showed that plant biomass was produced with atmospheric CO 2 as well as bicarbonate under drought stress. Bicarbonate use was proportional to the CA activity of the plants. With high CA activity over a long period, El had the highest proportional bicarbonate use compared to Ov and Bj, reaching 26.95%. Additionally, a new method is proposed for the screening of plants grown for energy in karst habitats.

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Carbonic Anhydrase

Matsuda¹,

Nawaly²,

Yoneda³

2022

Blue Planet, Red and Green Photosynthesis

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Increased expression of mitochondria-localized carbonic anhydrase activity resulted in an increased biomass accumulation in Arabidopsis thaliana

Cited by 25 publications

References 44 publications

The Cytoplasmic Carbonic Anhydrases βCA2 and βCA4 Are Required for Optimal Plant Growth at Low CO₂

The Cytoplasmic Carbonic Anhydrases βCA2 and βCA4 Are Required for Optimal Plant Growth at Low CO₂

Biomass Production of Three Biofuel Energy Plants’ Use of a New Carbon Resource by Carbonic Anhydrase in Simulated Karst Soils: Mechanism and Capacity

Carbonic Anhydrase

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Increased expression of mitochondria-localized carbonic anhydrase activity resulted in an increased biomass accumulation in Arabidopsis thaliana

Cited by 25 publications

References 44 publications

The Cytoplasmic Carbonic Anhydrases βCA2 and βCA4 Are Required for Optimal Plant Growth at Low CO2

The Cytoplasmic Carbonic Anhydrases βCA2 and βCA4 Are Required for Optimal Plant Growth at Low CO2

Biomass Production of Three Biofuel Energy Plants’ Use of a New Carbon Resource by Carbonic Anhydrase in Simulated Karst Soils: Mechanism and Capacity

Carbonic Anhydrase

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The Cytoplasmic Carbonic Anhydrases βCA2 and βCA4 Are Required for Optimal Plant Growth at Low CO₂

The Cytoplasmic Carbonic Anhydrases βCA2 and βCA4 Are Required for Optimal Plant Growth at Low CO₂