The NAC transcription factor MdNAC4 positively regulates nitrogen deficiency-induced leaf senescence by enhancing ABA biosynthesis in apple.

Although it is well established that nitrogen (N) deficiency induces leaf senescence, the molecular mechanism of N deficiency-induced leaf senescence remains largely unknown. Here, we show that an abscisic acid (ABA)-responsive NAC transcription factor (TF) is involved in N deficiency-induced leaf senescence. The overexpression of MdNAC4 led to increased ABA levels in apple calli by directly activating the transcription of the ABA biosynthesis gene MdNCED2.

The NAC transcription factor MdNAC29 negatively regulates drought tolerance in apple.

Drought stress is an adverse stimulus that affects agricultural production worldwide. NAC transcription factors are involved in plant development and growth but also play different roles in the abiotic stress response. Here, we isolated the apple gene and investigated its role in regulating drought tolerance.

Transcriptome analysis reveals candidate genes involved in nitrogen deficiency stress in apples.

Nitrogen is one of the macroelements required for plant growth and development and the identification of candidate genes involved in nitrogen deficiency stress is of great importance to the sustainable development of agriculture. Here, we found that the color of apple leaves changed from dark green to yellow-green, the malondialdehyde (MDA) content, soluble protein content, and proline content significantly increased, the chlorophyll content significantly decreased in response to nitrate deficiency stress. According to the physiological and biochemical changes of apple leaves during nitrate deficiency stress, nitrogen deficiency stress was divided into two stages: early nitrogen deficiency stage (ES) and late nitrogen deficiency stage (LS).

negatively regulates peach bud break through the gibberellin pathway and through interactions with .

Bud dormancy, which enables damage from cold temperatures to be avoided during winter and early spring, is an important adaptive mechanism of deciduous fruit trees to cope with seasonal environmental changes and temperate climates. Understanding the regulatory mechanism of bud break in fruit trees is highly important for the artificial control of bud break and the prevention of spring frost damage. However, the molecular mechanism underlying the involvement of MYB TFs during the bud break of peach is still unclear.

The apple GARP family gene MdHHO3 regulates the nitrate response and leaf senescence.

The regulation of plant gene expression by nitrate is a complex regulatory process. Here, we identified 90 GARP family genes in apples by genome-wide analysis. As a member of the GARP gene family, the expression of ( H) is upregulated under N (nitrogen) supply.

MdNAC4 Interacts With MdAPRR2 to Regulate Nitrogen Deficiency-Induced Leaf Senescence in Apple ().

Nitrogen (N) is one of the important macronutrients in plants, and N deficiency induces leaf senescence. However, the molecular mechanism underlying how N deficiency affects leaf senescence is unclear. Here, we report an apple NAC TF, MdNAC4, that participates in N deficiency-induced leaf senescence.

Prunus persica transcription factor PpNAC56 enhances heat resistance in transgenic tomatoes.

Members of the NAC (NAM, ATAF1,2 and CUC2) transcription factor family are involved in numerous processes of plant growth and development and play an important role in the response to abiotic stresses such as salinity, drought and heat, but little research on this topic has been done in peach. In this study, we analyzed the expression patterns of PpNAC56 under abiotic stress and found that PpNAC56 responded to high-temperature stress. To verify the function of PpNAC56, we overexpressed this gene in tomato plants and found that, compared with WT plants, the transgenic tomato plants could accumulate more osmoregulatory substances after high-temperature treatment and thus were more heat resistance.

Genome-wide identification and characterization of the Prunus persica ferredoxin gene family and its role in improving heat tolerance.

Ferredoxin is involved in many biological processes, such as carbon fixation, nitrogen assimilation, chlorophyll metabolism, and fatty acid synthesis, and it plays a role in plant resistance to stress. However, the functions of Fds in peach during stress are unclear. In this study, 11 members of the peach Fd gene family were identified and divided into six groups (I- VI).

Terpene Synthase Interacts with PpABI5 to Enhance Salt Resistance in Transgenic Tomatoes.

Terpene synthase () is related to the production of aromatic substances, but there are few studies on the impact of abiotic stress on and its molecular mechanism, especially in peaches. This study found that salt resistance and abscisic acid (ABA) sensitivity of transgenic tomatoes were enhanced by overexpression of . Moreover, it was found that interacted with and antagonized the expression of the transcription factor (), which is thought to play an important role in salt suitability.

, a Peach NUDIX Hydrolase, Plays a Negative Regulator in Response to Drought Stress.

Drought stress is a serious abiotic stress source that affects the growth and fruit quality of peach trees. However, the molecular mechanism of the NUDIX hydrolase family in peaches in response to drought stress is still unclear. Here, we isolated and identified the (Prupe.

OVATE Family Protein PpOFP1 Physically Interacts With PpZFHD1 and Confers Salt Tolerance to Tomato and Yeast.

The OVATE family protein (OFP) genes () have been shown to respond to salt stress in plants. However, the regulatory mechanism for salt tolerance of the peach () OFP gene has not been elucidated. In this study, using yeast two-hybrid screening, we isolated a nucleus-localized ZF-HD_dimer domain protein PpZFHD1, which interacts with the PpOFP1 protein in the peach cultivar "Zhongnongpan No.

Endodormancy Release Can Be Modulated by the GA-GID1c-DELLA2 Module in Peach Leaf Buds.

Gibberellin (GA) plays a key role in the release of bud dormancy and the GA receptor GID1 (GIBBERELLIN INSENSITIVE DWARF1) and DELLA protein are the GA signaling parts, but the molecular mechanism of GA-GID1-DELLA module regulating leaf bud dormancy in peach () is still not very clear. In this study, we isolated and characterized the GID1 gene from the peach cultivar "Zhong you No.4.

Chromosome-level genome assemblies of five Prunus species and genome-wide association studies for key agronomic traits in peach.

Prunus species include many important perennial fruit crops, such as peach, plum, apricot, and related wild species. Here, we report de novo genome assemblies for five species, including the cultivated species peach (Prunus persica), plum (Prunus salicina), and apricot (Prunus armeniaca), and the wild peach species Tibetan peach (Prunus mira) and Chinese wild peach (Prunus davidiana). The genomes ranged from 240 to 276 Mb in size, with contig N50 values of 2.

Does the promotion pressure on local officials matter for regional carbon emissions? Evidence based on provincial-level leaders in China.

This paper constructs data from 30 provinces in mainland China from 1997 to 2016 and mainly adopts panel data fixed effects models to investigate how the promotion pressure on local officials affects regional carbon emissions. Our empirical results show that the relationship between the promotion pressure on local officials and regional carbon emissions has a dynamic evolution characteristic during our research period. Specifically, the promotion pressure on local officials is positively associated with regional carbon emissions before 2009; however, this relationship weakened after China's carbon emission regulatory policies were strengthened in 2010.

BTB-TAZ Domain Protein PpBT3 modulates peach bud endodormancy by interacting with PpDAM5.

The dormancy-associated MADS-box (DAM) gene DAM5 has crucial roles in bud endodormancy; however, the molecular regulatory mechanism of PpDAM5 in peach (Prunus persica) has not been elucidated. In this study, using yeast two-hybrid screening, we isolated a BTB-TAZ Domain Protein PpBT3, which interacts with PpDAM5 protein, in the peach cultivar 'Chun xue'. As expected, we found that abscisic acid (ABA) maintained bud endodormancy and induced expression of the PpDAM5 gene, and that over-expressing PpDAM5 in Arabidopsis thaliana repressed seed germination.

Overexpression of the Peach Transcription Factor Early Bud-Break 1 Leads to More Branches in Poplar.

Shoot branching is an important adaptive trait that determines plant architecture. In a previous study, the () gene in peach ( var. ) cultivar Zhongyou 4 was transformed into poplar ().

Auxin alters sodium ion accumulation and nutrient accumulation by playing protective role in salinity challenged strawberry.

High salinity in soil affects the strawberry production and fruit quality. Auxin-primed plants have enhanced responses to soil salinization. In this study, we report that exogenous application of IAA can partially relieve stress responses of strawberry seedlings.

PpEBB1 directly binds to the GCC box-like element of auxin biosynthesis related genes.

EARLY BUD-BREAK 1 (EBB1) can promote bud break, and this function is likely conserved in woody plants. To get a more comprehensive understand of its function, peach (Prunus persica var. nectarina cultivar Zhongyou 4) PpEBB1 was overexpressed in Arabidopsis; the resultant phenotypes, including curved leaves, abnormal development of floral organs and low seed set, were similar to those of DORNRÖSCHEN-LIKE (DRNL) overexpression, indicating that PpEBB1 was a putative ortholog of AtDRNL.

The predictive and diagnostic ability of IL-6 for postoperative urosepsis in patients undergoing percutaneous nephrolithotomy.

The aim of this study is to investigate the predictive and diagnostic ability of interleukin-6 (IL-6) for postoperative urosepsis in patients undergoing percutaneous nephrolithotomy (PCNL). 90 patients undergoing PCNL between April 2019 and September 2019 were studied. 16 patients progressed to urosepsis (EXP1 group, n = 16) and 74 patients did not (CON group, n = 74); demographic and perioperative data were compared between these two groups.

The retrospective study of perioperative application of dexamethasone and furosemide for postoperative anti-inflammation in patients undergoing percutaneous nephrolithotomy.

Objectives: To investigate whether the perioperatively combined application of dexamethasone and furosemide could alleviate the inflammation in patients undergoing percutaneous nephrolithotomy (PCNL).

Patients And Methods: 147 patients undergoing PCNL between November 2018 and October 2019 were enrolled in the study. 77 patients accepted a single dose of dexamethasone and furosemide administration (EXP group, n = 77), and 70 patients did not (CON group, n = 70).

China's agricultural GHG emission efficiency: regional disparity and spatial dynamic evolution.

Improving China's agricultural greenhouse gases (GHG) emission efficiency has become an important way to cope with climate change in an ecologically-and ethically responsible manner. In this paper, we use a global slacks-based inefficiency model to evaluate the agricultural greenhouse gases (GHG) emission efficiency levels in China during 2000-2015. The regional disparity of China's GHG emission efficiency is examined by using a Dagum Gini coefficient.