Characterization of an Immunoglobulin Binding Protein Homolog in the Maize floury-2 Endosperm Mutant

Fontes, Elizabeth P. B.; Shank, Brain B.; Wrobel, Russell L.; Moose, Stephen P.; OBrian, Gregory R.; Wurtzel, Eleanore T.; Boston, Rebecca S.

doi:10.2307/3869354

Cited by 56 publications

(73 citation statements)

References 17 publications

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“…For example, Viviparous1 and LEC1 are important for embryogenesis and maturation (McCarty et al, 1991;Lotan et al, 1998). Other examples include O2, Shrunken2, Bt1, and Bt2, which are involved in storage compound accumulation (Russell et al, 1993;Vicente-Carbajosa et al, 1997;Shannon et al, 1998); Fie1 and Maternally expressed gene1, which are two endosperm imprinting genes (Gutiérrez-Marcos et al, 2004;Raissig et al, 2011); Glb1 and Glb2, which are two embryo storage protein genes (Kriz, 1989); and Floury2, which is a zein gene in the endosperm (Fontes et al, 1991). Such well-studied genes represent a small proportion of the 1,258 identified seed-specific genes, but this study provides information on when all of these genes are actively expressed (Supplemental Fig.…”

Section: Roles Of Seed-specific Genesmentioning

confidence: 99%

Dynamic Transcriptome Landscape of Maize Embryo and Endosperm Development

et al. 2014

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Maize (Zea mays) is an excellent cereal model for research on seed development because of its relatively large size for both embryo and endosperm. Despite the importance of seed in agriculture, the genome-wide transcriptome pattern throughout seed development has not been well characterized. Using high-throughput RNA sequencing, we developed a spatiotemporal transcriptome atlas of B73 maize seed development based on 53 samples from fertilization to maturity for embryo, endosperm, and whole seed tissues. A total of 26,105 genes were found to be involved in programming seed development, including 1,614 transcription factors. Global comparisons of gene expression highlighted the fundamental transcriptomic reprogramming and the phases of development. Coexpression analysis provided further insight into the dynamic reprogramming of the transcriptome by revealing functional transitions during maturation. Combined with the published nonseed high-throughput RNA sequencing data, we identified 91 transcription factors and 1,167 other seed-specific genes, which should help elucidate key mechanisms and regulatory networks that underlie seed development. In addition, correlation of gene expression with the pattern of DNA methylation revealed that hypomethylation of the gene body region should be an important factor for the expressional activation of seed-specific genes, especially for extremely highly expressed genes such as zeins. This study provides a valuable resource for understanding the genetic control of seed development of monocotyledon plants.

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Section: Roles Of Seed-specific Genesmentioning

confidence: 99%

Dynamic Transcriptome Landscape of Maize Embryo and Endosperm Development

et al. 2014

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“…Plant BiP expression has also been shown to respond to a variety of abiotic and biotic stress conditions, such as water stress, fungus infestation, insect attack, nutritional stress, cold acclimation, and elicitors of the plantpathogenesis response (Anderson et al, 1994;Denecke et al, 1995;Kalinski et al, 1995;Fontes et al, 1996;Figueiredo et al, 1997;Fontes et al, 1999). In the endosperm of maize floury-2 mutant, the synthesis of a zein-like storage protein variant, which contains an uncleavable signal sequence, is associated with increased accumulation of BiP (Boston et al, 1991;Fontes et al, 1991;Coleman et al, 1995;Gillinkin et al, 1997). Likewise, the expression of an assembly-defective mutant of the bean storage protein phaseoline induces BiP synthesis in tobacco (Nicotiana tabacum L. cv Havana) leaf protoplasts (Pe-drazzini et al, 1994).…”

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confidence: 99%

“…Likewise, the expression of an assembly-defective mutant of the bean storage protein phaseoline induces BiP synthesis in tobacco (Nicotiana tabacum L. cv Havana) leaf protoplasts (Pe-drazzini et al, 1994). Furthermore, tunicamycin, apotent activator of the UPR pathway, efficiently induces BiP expression at both mRNA and protein level in several plant systems (Fontes et al, 1991;D'amico et al, 1992;Figueiredo et al, 1997). These results have led to the conclusion that, like mammal and yeast (Saccharomyces cerevisiae) BiP, plant BiP is most likely regulated through a UPR pathway.…”

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confidence: 99%

Enhanced Accumulation of BiP in Transgenic Plants Confers Tolerance to Water Stress

et al. 2001

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The binding protein (BiP) is an important component of endoplasmic reticulum stress response of cells. Despite extensive studies in cultured cells, a protective function of BiP against stress has not yet been demonstrated in whole multicellular organisms. Here, we have obtained transgenic tobacco (Nicotiana tabacum L. cv Havana) plants constitutively expressing elevated levels of BiP or its antisense cDNA to analyze the protective role of this endoplasmic reticulum lumenal stress protein at the whole plant level. Elevated levels of BiP in transgenic sense lines conferred tolerance to the glycosylation inhibitor tunicamycin during germination and tolerance to water deficit during plant growth. Under progressive drought, the leaf BiP levels correlated with the maintenance of the shoot turgidity and water content. The protective effect of BiP overexpression against water stress was disrupted by expression of an antisense BiP cDNA construct. Although overexpression of BiP prevented cellular dehydration, the stomatal conductance and transpiration rate in droughted sense leaves were higher than in control and antisense leaves. The rate of photosynthesis under water deficit might have caused a degree of greater osmotic adjustment in sense leaves because it remained unaffected during water deprivation, which was in marked contrast with the severe drought-induced decrease in the CO 2 assimilation in control and antisense leaves. In antisense plants, the water stress stimulation of the antioxidative defenses was higher than in control plants, whereas in droughted sense leaves an induction of superoxide dismutase activity was not observed. These results suggest that overexpression of BiP in plants may prevent endogenous oxidative stress.

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“…The deduced amino acid sequence of yeast BiP consists of 682 amino acids, including 58 aspartate and 53 glutamate residues that are implicated in calcium binding (14,16,17). A BiP homolog with an apparent mol wt of 70,000 has recently been identified in the endosperm of thefloury-2 mutant of corn (9). The deduced amino acid sequence ofthis BiP homolog shows it to be 62% identical to BiP from mouse and yeast (9).…”

mentioning

confidence: 99%

“…A BiP homolog with an apparent mol wt of 70,000 has recently been identified in the endosperm of thefloury-2 mutant of corn (9). The deduced amino acid sequence ofthis BiP homolog shows it to be 62% identical to BiP from mouse and yeast (9).…”

mentioning

confidence: 99%