Silencing of the HvCKX1 gene decreases the cytokinin oxidase/dehydrogenase level in barley and leads to higher plant productivity

Zalewski, Wojciech; Galuszka, Petr; Gasparis, Sebastian; Orczyk, Wacław; Nadolska‐Orczyk, Anna

doi:10.1093/jxb/erq052

Cited by 168 publications

(184 citation statements)

References 52 publications

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“…In IL50-7, pathways related to IAA biosynthesis were upregulated. Glycogen and starch biosynthetic and cytokinin degradation pathways were upregulated in flag leaves and could be related to increased grain number and weight observed in the introgression line since earlier reports show that null mutation of cytokinin oxidase leads to yield increase (Ashikari et al 2005;Zalewski et al 2010). Shaggy-like protein kinase, auxin response factor, cytochrome P450, sugar transporter, β-glucanase, jumonji domain containing protein, and Myb factors which were reported to be differentially regulated in transcriptome analysis of brassinosteroid (BR) mutants of Arabidopsis thaliana (Mussig et al 2002;Clouse 2011) were also found to be differentially regulated in our study suggesting the involvement of BR pathway in the increased yield of IL50-7.…”

Section: Discussionmentioning

confidence: 93%

Os11Gsk gene from a wild rice, Oryza rufipogon improves yield in rice

Thalapati

Batchu

Neelamraju

et al. 2012

Funct Integr Genomics

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Chromosomal segments from wild rice species Oryza rufipogon, introgressed into an elite indica rice restorer line (KMR3) using molecular markers, resulted in significant increase in yield. Here we report the transcriptome analysis of flag leaves and fully emerged young panicles of one of the high yielding introgression lines IL50-7 in comparison to KMR3. A 66-fold upregulated gene Os11Gsk, which showed no transcript in KMR3 was highly expressed in O. rufipogon and IL50-7. A 5-kb genomic region including Os11Gsk and its flanking regions could be PCR amplified only from IL50-7, O. rufipogon, japonica varieties of rice-Nipponbare and Kitaake but not from the indica varieties, KMR3 and Taichung Native-1. Three sister lines of IL50-7 yielding higher than KMR3 showed presence of Os11Gsk, whereas the gene was absent in three other ILs from the same cross having lower yield than KMR3, indicating an association of the presence of Os11Gsk with high yield. Southern analysis showed additional bands in the genomic DNA of O. rufipogon and IL50-7 with Os11Gsk probe. Genomic sequence analysis of ten highly co-expressed differentially regulated genes revealed that two upregulated genes in IL50-7 were derived from O. rufipogon and most of the downregulated genes were either from KMR3 or common to KMR3, IL50-7, and O. rufipogon. Thus, we show that Os11Gsk is a wild rice-derived gene introduced in KMR3 background and increases yield either by regulating expression of functional genes sharing homology with it or by causing epigenetic modifications in the introgression line.

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Section: Discussionmentioning

confidence: 93%

Os11Gsk gene from a wild rice, Oryza rufipogon improves yield in rice

Thalapati

Batchu

Neelamraju

et al. 2012

Funct Integr Genomics

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“…This caused the formation of an increased number of reproductive organs, leading to enhanced grain production in the rice cultivar Habataki (Ashikari et al 2005). The effects of raising endogenous CK levels by silencing CKXs have also been investigated in barley (Zalewski et al 2010), Arabidopsis (Bartrina et al 2011), and tobacco (Zeng et al 2012). In Arabidopsis, the simultaneous silencing of the genes CKX3 and CKX5 resulted in the formation of more flowers/siliques per plant and more seeds per silique, causing a 55 % increase in seed yield relative to wild-type plants ( Bartrina et al 2011).…”

Section: Degradationmentioning

confidence: 99%

The Biotechnological Potential of Cytokinin Status Manipulation

Šmehilová

Spíchal

2013

Plant Cell Monographs

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Cytokinins are highly conserved plant hormones with a long evolutionary history that regulate various aspects of plant growth and development. The genetic background of the mechanisms involved in the regulation of plants' cytokinin status has recently been elucidated. Studies on transgenic plants with altered cytokinin biosynthesis, metabolism, degradation, or signaling revealed interesting consequences of cytokinin deficiency or disruption of cytokinin perception that can be applied in plant biotechnology and agriculture. Cytokinin levels and the sensing thereof can be manipulated using transgenic approaches and by treating plants with novel exogenous compounds in order to promote root system development, biomass formation, yield-forming traits, nutrient uptake, and tolerance of biotic and abiotic stresses. This chapter provides an overview of recent findings concerning the molecular basis and genetic background of cytokinin signaling and metabolism and the ways in which they can be manipulated to tailor plants' traits to meet specific requirements.

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“…Seeds from T 1 plants were evaluated which recorded more than 25 days earlier fl owering and day-length insensitivity as compared to the controls (El-Din et al 2011 ). Zalewski et al ( 2010 ) concentrated on silencing the expression of cytokinin oxidase/dehydrogenase ( HvCKX1 ) applying RNAi-based technology to elucidate the function of the gene in barley. The authors succeeded in generating more than 50 lines from which nearly 80 % displayed signifi cantly reduced CKX activity in bulked samples of their T 1 roots.…”

Section: Plant Productivitymentioning

confidence: 99%

“…A positive relationship between enzyme activity and plant productivity was determined, refl ected as the yield, the number of seeds per plant and 1,000 grain weight. Consequently, decreased CKX activity led to a higher plant yield and root weight (Zalewski et al 2010 ). Furthermore, silencing of HvCKX2 resulted in different phenotypes depending on the transformation method.…”

Section: Plant Productivitymentioning

confidence: 99%

Barley

Schulze¹

2013

Alien Gene Transfer in Crop Plants, Volume 2

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Barley ( Hordeum vulgare L.) is a widely adapted cereal crop with an extremely wide geographic distribution throughout the world. It fi nds great use for animals as a feed and for humans as a grain, especially as the source for malt for the brewing industry. In recent times, there is considerable interest in the nutritional properties of barley due to the discovery of the cholesterol-lowering effect of β-glucan, a cell wall polysaccharide. Exploitation of genetic diversity in the primary and secondary gene pool of barley using DNA-based technologies has yielded interspecifi c crosses with improved grain properties, malting quality and resistance to biotic and abiotic stresses. The signifi cant achievements regarding introgression of alien genes include the genes Rym14(Hb) , Rym16(Hb) and Ryd4(Hb) which were introgressed from Hordeum bulbosum conferring resistance to BaMMV, BaYMV and BYDV in barley. Signifi cant advances in genetic engineering of barley have been obtained, and strategies for establishment of regenerative cell and tissue culture systems as well as for development of DNA delivery techniques have been formulated. Lately, a huge potential has been realised in barley grains to produce pharmaceutical proteins like oral vaccines, growth supplements and food additives which are being exploited in a commercial scale. Nevertheless, several problems still remain like the strong genotype dependency of barley transformation protocols, transformation effi ciency, transgene stability and public acceptance. The review focuses on all these issues and elaborates achievements made in the last two decades in genetic enhancement of barley using different alien gene transfer approaches.

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Silencing of the HvCKX1 gene decreases the cytokinin oxidase/dehydrogenase level in barley and leads to higher plant productivity

Cited by 168 publications

References 52 publications

Os11Gsk gene from a wild rice, Oryza rufipogon improves yield in rice

Os11Gsk gene from a wild rice, Oryza rufipogon improves yield in rice

The Biotechnological Potential of Cytokinin Status Manipulation

Barley

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