Overexpression of the sweet potato IbOr gene results in the increased accumulation of carotenoid and confers tolerance to environmental stresses in transgenic potato

Goo, Youn‐Kyoung; Han, Eun-Heui; Jeong, Jae Cheol; Kwak, Sang‐Soo; Yu, Jaeju; Kim, Yun-Hee; Ahn, Mi‐Jeong; Lee, Shin-Woo

doi:10.1016/j.crvi.2014.10.006

Cited by 45 publications

(34 citation statements)

References 36 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Previously, we identified and characterized the gene encoding the Or ortholog ( IbOr ) from sweetpotato (Kim et al, 2013). Overexpression of IbOr results in accumulation of carotenoids and maintenance of higher PSII efficiency upon exposure to abiotic stress (particularly heat stress) in sweetpotato calli, Arabidopsis , alfalfa, and potato (Kim et al, 2013; Goo et al, 2015; Wang et al, 2015; Park et al, 2016). These results suggest that IbOr might play important roles in protecting photosynthesis against abiotic stress via regulation of carotenoid biosynthesis and stabilization of PSII.…”

Section: Discussionmentioning

confidence: 99%

IbOr Regulates Photosynthesis under Heat Stress by Stabilizing IbPsbP in Sweetpotato

et al. 2017

Self Cite

View full text Add to dashboard Cite

The Orange (Or) protein regulates carotenoid biosynthesis and environmental stress in plants. Previously, we reported that overexpression of the sweetpotato [Ipomoea batatas (L.) Lam] Or gene (IbOr) in transgenic Arabidopsis (referred to as IbOr-OX/At) increased the efficiency of photosystem II (PSII) and chlorophyll content after heat shock. However, little is known about the role of IbOr in PSII-mediated protection against abiotic stress. In this study, comparative proteomics revealed that expression of PsbP (an extrinsic subunit of PSII) is up-regulated in heat-treated IbOr-OX/At plants. We then identified and functionally characterized the PsbP-like gene (IbPsbP) from sweetpotato. IbPsbP is predominantly localized in chloroplast, and its transcripts are tissue-specifically expressed and up-regulated in response to abiotic stress. In addition, IbOr interacts with IbPsbP and protects it from heat-induced denaturation, consistent with the observation that transgenic sweetpotato overexpressing IbOr maintained higher PSII efficiency and chlorophyll content upon exposure to heat stress. These results indicate that IbOr can protect plants from environmental stress not only by controlling carotenoid biosynthesis but also by directly stabilizing PSII.

show abstract

Section: Discussionmentioning

confidence: 99%

IbOr Regulates Photosynthesis under Heat Stress by Stabilizing IbPsbP in Sweetpotato

et al. 2017

Self Cite

View full text Add to dashboard Cite

show abstract

“…The function of the Or gene is related to the differentiation of chromoplasts and accumulation of carotenoids in most of the plants investigated so far; however, the functional relation between the Or transgene and endogenous carotenoid biosynthesis genes as well as levels of carotenoids in wild-type plants is still not fully understood. Several reports showed that the overexpression of the Or gene can affect the endogenous carotenoid synthesis genes (Bai et al, 2014(Bai et al, , 2016Goo et al, 2015), while other studies showed that the overexpression of the Or gene stimulates accumulation of carotenoids without an effect on endogenous carotenoid synthesis genes (Yuan et al, 2015;Zhou et al, 2015). Recently, Berman et al (2017) showed that the overexpression of the Or gene depends on the level and composition of carotenoid of the wild-type plants.…”

Section: Discussionmentioning

confidence: 99%

“…This protects the stability of IbPSY protein and leads to carotenoid accumulation. The different expression manners of the Or gene have led to varied phenomena: changing both the content and the composition of carotenoids (Lopez et al, 2008), promoting the accumulation of β-carotene and other carotenoids (Lopez et al, 2008;Li et al, 2012), and increasing the total carotenoid content without affecting the composition of carotenoids (Goo et al, 2015;Berman et al, 2017). In our work, the overexpression of the IbOr gene from yellow-fleshed sweet potato cultivar Hoang Long in transgenic maize plants resulted in the increase of both total carotenoids (1.76-10.36-fold) and β-carotene (2.03-15.11-fold).…”

Section: Discussionmentioning

confidence: 99%

“…In addition to the role in carotenoid accumulation, a recent study showed that the Or protein of Arabidopsis thaliana interacts directly with PSY protein and functions as a major regulator of active PSY protein abundance in mediating carotenoid biosynthesis . The overexpression of the Or gene from Ipomea batatas (IbOr) in transgenic plants of potato, alfalfa, and sweet potato (Li et al, 2012;Goo et al, 2015;Park et al, 2015;Wang et al, 2015;Cho et al, 2016) has led to increased carotenoid accumulation without affecting carotenoid synthesis. A recent report on the role of the Arabidopsis thaliana Or gene (AtOr) in transgenic white maize and their hybrids (Berman et al, 2017) suggested the potential use of the Or gene to improve the carotenoid content of staple crops including maize.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Overexpression of the IbOr gene from sweet potato (Ipomea batatas ‘Hoang Long’)in maize increases total carotenoid and β-carotene contents

Tran¹,

Ho²,

Nguyen³

2017

Turk J Biol

View full text Add to dashboard Cite

Nutritional quality of most maize varieties is very low due to the lack of lysine and tryptophan and extremely low provitamin A carotenoids including β-carotene, α-carotene, and β-cryptoxanthin. In this study, we report the successful overexpression of the IbOr gene in H145 and H95 inbred maize lines under the control of maize seed-specific promoter globulin 1 (Glo1) for the purpose of improving β-carotene in maize. The results showed that the total carotenoid and β-carotene content of all analyzed transgenic maize plants were significantly higher than those of wild-type lines. For H145-IbOr transgenic maize, in the best line (H145-IbOr.10), the total carotenoid and β-carotene contents were increased up to 10.36-and 15.11-fold, respectively, compared to the wild type (H145-WT). In the case of H95-IbOr transgenic plants, 5.58-fold increase in total carotenoid and 7.63-fold increase in β-carotene were achieved in the H95-IbOr.6 line compared to nontransgenic plants (H95-WT). In all the transgenic plants derived from the wild-type maize line with less carotenoid content (H145-WT), the content of both total carotenoid and β-carotene was higher than in transgenic plants derived from the wild-type maize line having more carotenoid content (H95-WT). Our research is the first in successful overexpression of IbOr gene in maize.

show abstract

“…Estes compostos são pigmentos orgânicos encontrados em plantas, nas que atuam como antioxidantes, evitando os danos causados por estresses ambientais, como a alta incidência solar, as elevadas temperaturas, a radiação ultravioleta e a seca (GOO et al, 2014). Também desempenham um papel importante como precursores da vitamina A na dieta humana (BECHOFF et al 2010).…”

Section: Carotenoidesunclassified

Caracterização morfoagronômica, físico-química e tolerância ao nematoide-das-galhas de genótipos de batata-doce avaliados no Distrito Federal

Carmona¹

View full text Add to dashboard Cite

Overexpression of the sweet potato IbOr gene results in the increased accumulation of carotenoid and confers tolerance to environmental stresses in transgenic potato

Cited by 45 publications

References 36 publications

IbOr Regulates Photosynthesis under Heat Stress by Stabilizing IbPsbP in Sweetpotato

IbOr Regulates Photosynthesis under Heat Stress by Stabilizing IbPsbP in Sweetpotato

Overexpression of the IbOr gene from sweet potato (Ipomea batatas ‘Hoang Long’)in maize increases total carotenoid and β-carotene contents

Caracterização morfoagronômica, físico-química e tolerância ao nematoide-das-galhas de genótipos de batata-doce avaliados no Distrito Federal

Contact Info

Product

Resources

About