Guar Seed ß-Mannan Synthase Is a Member of the Cellulose Synthase Super Gene Family

Dhugga, Kanwarpal S.; Barreiro, Roberto; Whitten, Brad; Stecca, Kevin L.; Hazebroek, Jan; Randhawa, G. S.; Dolan, M. Eileen; Kinney, Anthony J.; Tomes, D. T.; Nichols, Scott E.; Anderson, Paul N.

doi:10.1126/science.1090908

Cited by 321 publications

(318 citation statements)

References 23 publications

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“…We have examined the monosaccharide composition of the endosperm over the course of development, applied the recently generated xyloglucan antibody to early endosperm development, and modified our approach to studying arabino-(1→4)-b-D-xylan using the LM11 antibody. Previous studies identifying genes involved in the synthesis of cell wall polysaccharides have shown that transcript accumulation correlates with the time of polysaccharide synthesis and deposition (Pear et al, 1996;Doblin et al, 2001;Dhugga et al, 2004;Brown et al, 2005;Persson et al, 2005;Cocuron et al, 2007;Mitchell et al, 2007). By coupling our immuno-EM observations with transcript profiles of candidate cell wall synthesis genes, we can now infer which subfamily members of these gene families is functional during key stages of endosperm development.…”

Section: Discussionmentioning

confidence: 86%

“…For example, there is ample evidence associating the GLUCAN SYNTHASE-LIKE (GSL) gene family with callose [(1→3)-b-D-glucan] biosynthesis (Brownfield et al, 2009). Heterologous expression experiments coupled with gene expression profiles have implicated the CslC gene family in the synthesis of the glucan backbone of xyloglucan (Cocuron et al, 2007) and cellulose (Dwivany et al, 2009) whereas members of the CslA gene family have been shown to have mannan or (gluco)mannan synthase activity (Dhugga et al, 2004).…”

Section: Polysaccharides [In Particular (1→3 1→4)-b-d-glucan and Aramentioning

confidence: 99%

“…The CslA genes from a broad range of species including Arabidopsis, guar (Cyamopsis tetragonoloba), poplar (Populus trichocarpa), loblolly pine (Pinus taeda), moss (Physcomitrella patens), and rice have been shown to have either mannan or glucomannan synthase activity when heterologously expressed (Dhugga et al, 2004;Liepman et al, 2005Liepman et al, , 2007Suzuki et al, 2006). The expression levels of six known barley CslA genes were followed over the differentiation phase of endosperm development.…”

Section: Transcript Profiles Of Csl Genesmentioning

confidence: 99%

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Pattern of Deposition of Cell Wall Polysaccharides and Transcript Abundance of Related Cell Wall Synthesis Genes during Differentiation in Barley Endosperm

Wilson

Burton²,

Collins³

et al. 2012

Plant Physiology

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Immunolabeling, combined with chemical analyses and transcript profiling, have provided a comprehensive temporal and spatial picture of the deposition and modification of cell wall polysaccharides during barley (Hordeum vulgare) grain development, from endosperm cellularization at 3 d after pollination (DAP) through differentiation to the mature grain at 38 DAP. (1→3)-β-d-Glucan appears transiently during cellularization but reappears in patches in the subaleurone cell walls around 20 DAP. (1→3, 1→4)-β-Glucan, the most abundant polysaccharide of the mature barley grain, accumulates throughout development. Arabino-(1-4)-β-d-xylan is deposited significantly earlier than we previously reported. This was attributable to the initial deposition of the polysaccharide in a highly substituted form that was not recognized by antibodies commonly used to detect arabino-(1-4)-β-d-xylans in sections of plant material. The epitopes needed for antibody recognition were exposed by pretreatment of sections with α-l-arabinofuranosidase; this procedure showed that arabino-(1-4)-β-d-xylans were deposited as early as 5 DAP and highlighted their changing structures during endosperm development. By 28 DAP labeling of hetero-(1→4)-β-d-mannan is observed in the walls of the starchy endosperm but not in the aleurone walls. Although absent in mature endosperm cell walls we now show that xyloglucan is present transiently from 3 until about 6 DAP and disappears by 8 DAP. Quantitative reverse transcription-polymerase chain reaction of transcripts for GLUCAN SYNTHASE-LIKE, Cellulose Synthase, and CELLULOSE SYNTHASE-LIKE genes were consistent with the patterns of polysaccharide deposition. Transcript profiling of some members from the Carbohydrate-Active Enzymes database glycosyl transferase families GT61, GT47, and GT43, previously implicated in arabino-(1-4)-β-d-xylan biosynthesis, confirms their presence during grain development.

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Section: Discussionmentioning

confidence: 86%

Section: Polysaccharides [In Particular (1→3 1→4)-b-d-glucan and Aramentioning

confidence: 99%

Section: Transcript Profiles Of Csl Genesmentioning

confidence: 99%

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Pattern of Deposition of Cell Wall Polysaccharides and Transcript Abundance of Related Cell Wall Synthesis Genes during Differentiation in Barley Endosperm

Wilson

Burton²,

Collins³

et al. 2012

Plant Physiology

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“…The sequence similarity of the CSL genes to the CESA genes originally suggested that they also encode processive glycosyl transferases (Cutler and Somerville 1997). Recently, Dhugga et al (2004) showed that a CSL gene from guar encodes a b-1,4-mannan synthase. Thus, it seems likely that other CSL genes catalyze synthesis of various cell wall polysaccharides.…”

Section: Introductionmentioning

confidence: 99%

Global expression analysis of CESA and CSL genes in Arabidopsis

Hamann¹,

Osborne²,

Youngs³

et al. 2004

Cellulose

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We have used Affymetrix gene chips to measure the expression of 10 CESA and 29 CSL genes of Arabidopsis in different developmental stages or organs. These measurements reveal that many of the genes exhibit different levels of expression in the various organs. While several CESA genes are highly expressed in all the tissues examined, very few CSL genes approach such high levels of expression. This suggests that the CSL genes either encode enzymes for the synthesis of minor components of cell walls or are expressed only in specific cell types. The expression data also highlights the potential importance of the CESA genes for primary and secondary cell wall formation during different developmental stages and in the different organs examined.Abbreviations: FTIR -Fourier transform infrared spectroscopy; CESA -cellulose synthase; cev 1 -constitutive expression of VSP1;

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“…Surprisingly few Csl genes have been assigned a specific function in plant cell wall biosynthesis. Members of the CslA subfamily encode (1,4)-b-D-mannan synthases (Dhugga et al, 2004;Liepman et al, 2007), and the CslC group is believed to encode an enzyme that directs the synthesis of the (1,4)-b-D-glucan backbone of xyloglucans (Cocuron et al, 2007). Using a comparative genomics approach, Burton et al (2006) showed that a cluster of the monocot-specific CslF genes in rice is located in a genomic region corresponding to one containing a major quantitative trait locus (QTL) for grain (1,3;1,4)-b-D-glucan content in barley (Hordeum vulgare).…”

mentioning

confidence: 99%

The Genetics and Transcriptional Profiles of the Cellulose Synthase-Like HvCslF Gene Family in Barley

Burton

Jobling²,

Harvey³

et al. 2008

Plant Physiol.

205

295

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Guar Seed ß-Mannan Synthase Is a Member of the Cellulose Synthase Super Gene Family

Cited by 321 publications

References 23 publications

Pattern of Deposition of Cell Wall Polysaccharides and Transcript Abundance of Related Cell Wall Synthesis Genes during Differentiation in Barley Endosperm

Pattern of Deposition of Cell Wall Polysaccharides and Transcript Abundance of Related Cell Wall Synthesis Genes during Differentiation in Barley Endosperm

Global expression analysis of CESA and CSL genes in Arabidopsis

The Genetics and Transcriptional Profiles of the Cellulose Synthase-Like HvCslF Gene Family in Barley

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