Promoter analysis of genes that are coordinately expressed during pollen development reveals pollen-specific enhancer sequences and shared regulatory elements.

Twell, David; Yamaguchi, Judy; Wing, Rod A.; Ushiba, J; McCormick, Sheila

doi:10.1101/gad.5.3.496

Cited by 292 publications

(225 citation statements)

References 26 publications

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“…2). However, this sequence differs slightly from those previously identified (Twell et al, 1991;Weterings et al, 1995;Bate and Twell, 1998; TGTTGGTT instead of TGTGGTT). One sugar-repressive box (Morita et al, 1998) has also been found in this promoter (Fig.…”

contrasting

confidence: 70%

“…However, digital northern analysis carried out with Genevestigator (Zimmermann et al, 2004; https:// www.genevestigator.ethz.ch) did not reveal any potential regulation by auxin. One pollen box is present (Twell et al, 1991), as well as two dark induction or light repression boxes (Dehesh et al, 1990;Inaba et al, 2000;Fig. 2).…”

mentioning

confidence: 99%

“…In the AKINb2 promoter (998 bp from transcription start site), a domain similar to the LAT56 pollen motif is present (Twell et al, 1991;Fig. 2).…”

mentioning

confidence: 99%

“…2). Seven AAATGA boxes are on the major strand and three on the minus strand (Weterings et al, 1995) as well as three LAT56-type pollen boxes (Twell et al, 1991). A dark induction box (Dehesh et al, 1990) is present in the exonic region located between the two leader introns (Fig.…”

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confidence: 99%

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β-Subunits of the SnRK1 Complexes Share a Common Ancestral Function Together with Expression and Function Specificities; Physical Interaction with Nitrate Reductase Specifically Occurs via AKINβ1-Subunit

et al. 2008

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The SNF1/AMPK/SnRK1 kinases are evolutionary conserved kinases involved in yeast, mammals, and plants in the control of energy balance. These heterotrimeric enzymes are composed of one a-type catalytic subunit and two g-and b-type regulatory subunits. In yeast it has been proposed that the b-type subunits regulate both the localization of the kinase complexes within the cell and the interaction of the kinases with their targets. In this work, we demonstrate that the three b-type subunits of Arabidopsis (Arabidopsis thaliana; AKINb1, AKINb2, and AKINb3) restore the growth phenotype of the yeast sip1Dsip2Dgal83D triple mutant, thus suggesting the conservation of an ancestral function. Expression analyses, using AKINb promoter:: b-glucuronidase transgenic lines, reveal different and specific patterns of expression for each subunit according to organs, developmental stages, and environmental conditions. Finally, our results show that the b-type subunits are involved in the specificity of interaction of the kinase with the cytosolic nitrate reductase. Together with previous cell-free phosphorylation data, they strongly support the proposal that nitrate reductase is a real target of SnRK1 in the physiological context. Altogether our data suggest the conservation of ancestral basic function(s) together with specialized functions for each b-type subunit in plants.

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confidence: 70%

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confidence: 99%

“…In the AKINb2 promoter (998 bp from transcription start site), a domain similar to the LAT56 pollen motif is present (Twell et al, 1991;Fig. 2).…”

mentioning

confidence: 99%

mentioning

confidence: 99%

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β-Subunits of the SnRK1 Complexes Share a Common Ancestral Function Together with Expression and Function Specificities; Physical Interaction with Nitrate Reductase Specifically Occurs via AKINβ1-Subunit

et al. 2008

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“…Although others have found such transient assays to be reliable methods to measure gene activities, we have relied on the data obtained from the analyses of transgenic plants to study the isocitrate lyase 5' flanking region because of the potential problems in interpreting the results of the bombardment experiments (Klein et al, 1988(Klein et al, , 1989Bruce et al, 1989;Goff et al, 1990;Rolfe and Tobin, 1991;Twell et al, 1991).…”

Section: Comparison Of Promoter Activities In a Transient Expression mentioning

confidence: 99%

DNA Sequences That Activate Isocitrate Lyase Gene Expression during Late Embryogenesis and during Postgerminative Growth

et al. 1996

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We analyzed DNA sequences that regulate the expression of an isocitrate lyase gene from Brasska napus L. during late embryogenesis and during postgerminative growth to determine whether glyoxysomal function is induced by a common mechanism at different developmental stages. P-Clucuronidase constructs were used both in transient expression assays in 6. napus and in transgenic Arabidopsis thaliana to identify the segments of the isocitrate lyase 5' flanking region that influence promoter activity. DNA sequences that play the principal role in activating the promoter during postgerminative growth are located more than 1200 bp upstream of the gene. Distinct DNA sequences that were sufficient for high-leve1 expression during late embryogenesis but only low-leve1 expression during postgerminative growth were also identified. Other parts of the 5' flanking region increased promoter activity both in developing seed and in seedlings. We conclude that a combination of elements is involved in regulating the isocitrate lyase gene and that distinct DNA sequences play primary roles in activating the gene in embryos and in seedlings. These findings suggest that different signals contribute to the induction of glyoxysomal function during these two developmental stages. We also showed that some of the constructs were expressed differently in transient expression assays and in transgenic plants.Glyoxysomes are peroxisomes with a specialized function in lipid mobilization. They contain enzymes of the P-oxidation pathway and the glyoxylate cycle that largely account for the ability of plants to utilize lipids as a carbon source (Trelease and Doman, 1984). These organelles play a prominent role in the metabolism of postgerminative seedlings by converting storage lipids into carbohydrates that serve as carbon and energy sources for the growing seedling (Bridenbach et al., 1967;Huang et al., 1983;Trelease, 1984). Functional glyoxysomes are also present in senescing organs, where they are thought to play a similar role in transforming membrane lipids into carbohydrates that can This work was supported by grants from the National Science Foundation. C.M.S. was supported in part by a fellowship from the North Atlantic Treaty Organization. Bellis and Nishimura, 1991;Wanner et al., 1991;Graham et al., 1992). The findings that genes encoding the two glyoxysome-specific enzymes, isocitrate lyase and malate synthase, are active during pollen and seed development as well as during postgerminative growth opens the possibility that peroxisomes present at these stages of the life cycle may have a glyoxysomal function (Pais and Feijo, 1987;Charzynska et al., 1989;Comai et al., 1989;Turley and Trelease, 1990;Zhang et al., 1994). Thus, glyoxysomal enzymes are present at severa1 stages of the plant life cycle.Although genes encoding the key glyoxylate-cycle enzymes are activated in developing pollen and in maturing seed, the pathway's precise metabolic role(s) at these developmental stages is not known. Understanding the mechanisms that induce these...

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Mitochondrial Respiratory Complex Biogenesis: Communication, Geneexpression and Assembly

Giegé¹

Plant Mitochondria

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Promoter analysis of genes that are coordinately expressed during pollen development reveals pollen-specific enhancer sequences and shared regulatory elements.

Cited by 292 publications

References 26 publications

β-Subunits of the SnRK1 Complexes Share a Common Ancestral Function Together with Expression and Function Specificities; Physical Interaction with Nitrate Reductase Specifically Occurs via AKINβ1-Subunit

β-Subunits of the SnRK1 Complexes Share a Common Ancestral Function Together with Expression and Function Specificities; Physical Interaction with Nitrate Reductase Specifically Occurs via AKINβ1-Subunit

DNA Sequences That Activate Isocitrate Lyase Gene Expression during Late Embryogenesis and during Postgerminative Growth

Mitochondrial Respiratory Complex Biogenesis: Communication, Geneexpression and Assembly

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