Identification and molecular characterization of shrunken-2 cDNA clones of maize.

Bhave, Mrinal; Lawrence, Susan D.; Barton, Carolyn R.; Hannah, L. Curtis

doi:10.1105/tpc.2.6.581

Cited by 231 publications

(136 citation statements)

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“…Cloning and sequencing of Sh2 and Bt2 and analysis of informative mutants (Bae et al, 1990, Bhave et al, 1990) of maize endosperm transcripts and genes showed that both loci encode subunits of AGP. Bt2 encodes the small subunit, whereas the large subunit is derived from Sh2.…”

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confidence: 99%

Maize Genes Encoding the Small Subunit of ADP- Glucose Pyrophosphorylase

et al. 2001

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Plant ADP-glucose pyrophosphorylase (AGP) is a heterotetrameric enzyme composed of two large and two small subunits. Here, we report the structures of the maize (Zea mays) genes encoding AGP small subunits of leaf and endosperm. Excluding exon 1, protein-encoding sequences of the two genes are nearly identical. Exon 1 coding sequences, however, possess no similarity. Introns are placed in identical positions and exhibit obvious sequence similarity. Size differences are primarily due to insertions and duplications, hallmarks of transposable element visitation. Comparison of the maize genes with other plant AGP small subunit genes leads to a number of noteworthy inferences concerning the evolution of these genes. The small subunit gene can be divided into two modules. One module, encompassing all coding information except that derived from exon 1, displays striking similarity among all genes. It is surprising that members from eudicots form one group, whereas those from cereals form a second group. This implies that the duplications giving rise to family members occurred at least twice and after the separation of eudicots and monocot cereals. One intron within this module may have had a transposon origin. A different evolutionary history is suggested for exon 1. These sequences define three distinct groups, two of which come from cereal seeds. This distinction likely has functional significance because cereal endosperm AGPs are cytosolic, whereas all other forms appear to be plastid localized. Finally, whereas barley (Hordeum vulgare) reportedly employs only one gene to encode the small subunit of the seed and leaf, maize utilizes the two genes described here.The formation of ADP-Glc from Glc-1-phosphate and ATP with the release of pyrophosphate is considered the first committed step in the starch biosynthetic pathway. This key, rate-limiting reaction is catalyzed by the enzyme ADP-Glc pyrophosphorylase (AGP; EC 2.7.7.27). AGP isoforms occur in organisms and tissues ranging from Escherichia coli to the potato (Solanum tuberosum) tuber and the maize (Zea mays) endosperm (for review, see Preiss and

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Maize Genes Encoding the Small Subunit of ADP- Glucose Pyrophosphorylase

et al. 2001

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“…Sh2 encodes a subunit of endosperm ADP-glucose pyrophosphorylase, the key enzyme for starch biosynthesis in maize endosperm (Bhave et al 1990). Mutations in Sh2 result in a great reduction in starch levels with concomitantly high sucrose accumulation.…”

Section: Glucan Accumulation Analysis In Mature Transgenic Seedsmentioning

confidence: 99%

High level accumulation of α-glucan in maize kernels by expressing the gtfD gene from Streptococcus mutans

et al. 2006

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Glucosyltransferases (GTFs, EC.2.4.1.5) are bacterial enzymes that catalyze the polymerization of glucose residues from sucrose, leading to the production of high molecular weight glucan with a-1,3 /a-1,6 linkages. Such glucans, with many potential food and industrial applications, do not normally exist in higher plants. We fused a mutant form of the gtfD gene from Sreptococcus mutans with the maize (Zea mays L.) chloroplastic Brittle 1 transit peptide for amyloplast targeting. This construct, driven by the ubiquitin promoter, was introduced into maize by Agrobacterium-mediated transformation. We developed a novel HPLC-based method that enabled us differentially to distinguish transgene glucan from other endogenous polysaccharides in maize kernels. Using this method, we screened over 100 transgenic plants for the presence of GTF-produced glucan whose content varied between 0.8 and 14% of dry weight in the mature transgenic seeds. The mature transgenic plants were indistinguishable from wildtype plants in growth rate and morphology. Furthermore, starch granule size in the transgenic maize kernel was unaffected by the accumulation of the foreign polysaccharide. Mutation in Sh2, which encodes a subunit of ADP-glucose pyrophosphorylase, had no effect on glucan accumulation caused by gtfD expression. Our results indicated that high levels of novel carbohydrate polymer can be accumulated in crop plants through transgene technology.

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“…Lal et al (2003) found the Helitron -like element within the Shrunken2 ( Sh2 ) gene in the mutant sh2-7527 , which appears to have arisen spontaneously in a conventional maize breeding program in the 1970s. sh2 mutants are characterized by kernels with poorly developed, shrunken endosperm tissue (Figure 1), resulting from mutations in the Sh2 gene, which encodes the large subunit of ADP-Glc pyrophosphorylase (Bhave et al, 1990). The Sh2 protein is a key enzyme in starch biosynthesis and is produced exclusively in the endosperm; sh2 mutants contain a much lower concentration of starch and a much higher concentration of Suc than the wild type.…”

Section: In This Issuementioning

confidence: 99%

A New Twist on Transposons

Eckardt

2003

Plant Cell

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Identification and molecular characterization of shrunken-2 cDNA clones of maize.

Cited by 231 publications

References 21 publications

Maize Genes Encoding the Small Subunit of ADP- Glucose Pyrophosphorylase

Maize Genes Encoding the Small Subunit of ADP- Glucose Pyrophosphorylase

High level accumulation of α-glucan in maize kernels by expressing the gtfD gene from Streptococcus mutans

A New Twist on Transposons

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