Comparative Proteomic Analysis of the Graft Unions in Hickory (Carya cathayensis) Provides Insights into Response Mechanisms to Grafting Process

Xu, Dongpo; Yuan, Huwei; Tong, Yafei; Zhao, Liang; Qiu, Lingling; Guo, Wenbin; Shen, Chenjia; Liu, Hongjia; Yan, Daoliang; Zheng, Bingsong

doi:10.3389/fpls.2017.00676

Cited by 53 publications

(54 citation statements)

References 56 publications

(71 reference statements)

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“…High-throughput proteomic analysis has been developed to reveal the responses of host plants to infection by various plant viruses at the protein level [ 15 , 19 , 22 ]. MRDD, which is caused by RBSDV, is a severe disease that results in substantial yield losses in the Yellow-Huai-Hai River plain of China [ 23 ].…”

Section: Discussionmentioning

confidence: 99%

Comparative proteomic analysis of maize (Zea mays L.) seedlings under rice black-streaked dwarf virus infection

Yue

Han

et al. 2018

BMC Plant Biol

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BackgroundMaize rough dwarf disease (MRDD) is a severe disease that has been occurring frequently in southern China and many other Asian countries. MRDD is caused by the infection of Rice black streaked dwarf virus (RBSDV) and leads to significant economic losses in maize production. To well understand the destructive effects of RBSDV infection on maize growth, comparative proteomic analyses of maize seedlings under RBSDV infection was performed using an integrated approach involving LC-MS/MS and Tandem Mass Tag (TMT) labeling.ResultsIn total, 7615 maize proteins, 6319 of which were quantified. A total of 116 differentially accumulated proteins (DAPs) were identified, including 35 up- and 81 down-regulated proteins under the RBSDV infection. Enrichment analysis showed that the DAPs were most strongly associated with cyanoamino acid metabolism, protein processing in ER, and ribosome-related pathways. Two sulfur metabolism-related proteins were significantly reduced, indicating that sulfur may participate in the resistance against RBSDV infection. Furthermore, 15 DAPs involved in six metabolic pathways were identified in maize under the RBSDV infection.ConclusionsOur data revealed that the responses of maize to RBSDV infection were controlled by various metabolic pathways.Electronic supplementary materialThe online version of this article (10.1186/s12870-018-1419-x) contains supplementary material, which is available to authorized users.

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Section: Discussionmentioning

confidence: 99%

Comparative proteomic analysis of maize (Zea mays L.) seedlings under rice black-streaked dwarf virus infection

Yue

Han

et al. 2018

BMC Plant Biol

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“…Therefore, the development of efficient and simultaneously green‐friendly approaches to reduce metal risks and toxicity in plants is a matter of special interest. Plant growth regulators control various important biological processes at physiological and molecular level (Peleg and Blumwald , Xu et al , Yu et al , Kumar et al , b). Nitric oxide (NO) is regarded as an important signaling compound, inducing a variety of developmental and physiological responses in plants, ranging from germination and senescence, to photosynthesis and redox homeostasis (Nabi et al ).…”

Section: Introductionmentioning

confidence: 99%

Nitric oxide‐mediated regulation of oxidative stress in plants under metal stress: a review on molecular and biochemical aspects

Sharma

Soares

Sousa

et al. 2019

Physiologia Plantarum

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118

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Given their sessile nature, plants continuously face unfavorable conditions throughout their life cycle, including water scarcity, extreme temperatures and soil pollution. Among all, metal(loid)s are one of the main classes of contaminants worldwide, posing a serious threat to plant growth and development. When in excess, metals which include both essential and non‐essential elements, quickly become phytotoxic, inducing the occurrence of oxidative stress. In this way, in order to ensure food production and safety, attempts to enhance plant tolerance to metal(loid)s are urgently needed. Nitric oxide (NO) is recognized as a signaling molecule, highly involved in multiple physiological events, like the response of plants to abiotic stress. Thus, substantial efforts have been made to assess NO potential in alleviating metal‐induced oxidative stress in plants. In this review, an updated overview of NO‐mediated protection against metal toxicity is provided. After carefully reviewing NO biosynthetic pathways, focus was given to the interaction between NO and the redox homeostasis followed by photosynthetic performance of plants under metal excess.

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“…; Xu et al . ). Members of the PM ATPase gene family were up‐regulated at the graft interface of litchi ( Litchi chinensis ) for compatible grafts at 14 and 21 day after grafting (Chen et al .…”

Section: Discussionmentioning

confidence: 97%

“…; Xu et al . ). In fact, addition of sucrose to the growth medium or soils before grafting was found to improve graft success (Marsch‐Martinez et al .…”

Section: Discussionmentioning

confidence: 97%

Plasma membrane H⁺‐ATPase activity and graft success of breadfruit (Artocarpus altilis) onto interspecific rootstocks of marang (A. odoratissimus) and pedalai (A. sericicarpus)

Zhou

Underhill

2018

Plant Biol J

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Breadfruit (Artocarpus altilis) is primarily grown as a staple tree crop for food security in Oceania. Significant wind damage has driven interest in developing its dwarfing rootstocks. Due to the predominantly vegetative propagation of the species, grafting onto interspecific seedlings is an approach to identifying dwarfing rootstocks. However, grafting of breadfruit onto unrelated Artocarpus species has not been investigated. Here we first report the success of breadfruit grafting onto interspecific rootstocks, marang (A. odoratissimus) and pedalai (A. sericicarpus). To address the low graft survival, we investigated the relationship of plasma membrane (PM) H -ATPase activity to graft success. We provide the first evidence for a positive correlation between PM H -ATPase activity and graft survival. The graft unions of successful grafts had higher PM H -ATPase activity compared to those of failed grafts. Rootstocks with low PM H -ATPase activity in leaf microsomes before grafting had lower graft survival than those with high enzyme activity, with graft success of 10% versus 60% and 0% versus 30% for marang and pedalai rootstocks, respectively. There was a positive correlation between graft success and the PM H -ATPase activity measured from the rootstock stem microsomes 2 months after grafting [marang, r(7) = 0.9203, P = 0.0004; pedalai (r(7) = 0. 8820, P = 0.0017]. Removal of scion's own roots decreased the leaf PM H -ATPase activity of grafted plants regardless of the final graft outcome. Recovery of the enzyme activity was only found in the successful grafts. The function of PM H -ATPase in graft union development and graft success improvement is discussed.

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Comparative Proteomic Analysis of the Graft Unions in Hickory (Carya cathayensis) Provides Insights into Response Mechanisms to Grafting Process

Cited by 53 publications

References 56 publications

Comparative proteomic analysis of maize (Zea mays L.) seedlings under rice black-streaked dwarf virus infection

Comparative proteomic analysis of maize (Zea mays L.) seedlings under rice black-streaked dwarf virus infection

Nitric oxide‐mediated regulation of oxidative stress in plants under metal stress: a review on molecular and biochemical aspects

Plasma membrane H⁺‐ATPase activity and graft success of breadfruit (Artocarpus altilis) onto interspecific rootstocks of marang (A. odoratissimus) and pedalai (A. sericicarpus)

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Comparative Proteomic Analysis of the Graft Unions in Hickory (Carya cathayensis) Provides Insights into Response Mechanisms to Grafting Process

Cited by 53 publications

References 56 publications

Comparative proteomic analysis of maize (Zea mays L.) seedlings under rice black-streaked dwarf virus infection

Comparative proteomic analysis of maize (Zea mays L.) seedlings under rice black-streaked dwarf virus infection

Nitric oxide‐mediated regulation of oxidative stress in plants under metal stress: a review on molecular and biochemical aspects

Plasma membrane H+‐ATPase activity and graft success of breadfruit (Artocarpus altilis) onto interspecific rootstocks of marang (A. odoratissimus) and pedalai (A. sericicarpus)

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Plasma membrane H⁺‐ATPase activity and graft success of breadfruit (Artocarpus altilis) onto interspecific rootstocks of marang (A. odoratissimus) and pedalai (A. sericicarpus)