1.Effect of ACC oxidase gene AhACOs on salt tolerance of peanut.
Jianbin HUANG ; Wenjie ZHOU ; Lei FANG ; Mingming SUN ; Xin LI ; Jingjing LI ; Xiaoting LI ; Yanyan TANG ; Defeng JIANG ; Hong ZHU ; Jiongming SUI ; Lixian QIAO
Chinese Journal of Biotechnology 2023;39(2):603-613
ACC oxidase (ACO) is one of the key enzymes that catalyze the synthesis of ethylene. Ethylene is involved in salt stress response in plants, and salt stress seriously affects the yield of peanut. In this study, AhACO genes were cloned and their functions were investigated with the aim to explore the biological function of AhACOs in salt stress response, and to provide genetic resources for the breeding of salt-tolerant varieties of peanut. AhACO1 and AhACO2 were amplified from the cDNA of salt-tolerant peanut mutant M29, respectively, and cloned into the plant expression vector pCAMBIA super1300. The recombinant plasmid was transformed into Huayu22 by pollen tube injection mediated by Agrobacterium tumefaciens. After harvest, the small slice cotyledon was separated from the kernel, and the positive seeds were screened by PCR. The expression of AhACO genes was analyzed by qRT-PCR, and the ethylene release was detected by capillary column gas chromatography. Transgenic seeds were sowed and then irrigated with NaCl solution, and the phenotypic changes of 21-day-seedings were recorded. The results showed that the growth of transgenic plants were better than that of the control group Huayu 22 upon salt stress, and the relative content of chlorophyll SPAD value and net photosynthetic rate (Pn) of transgenic peanuts were higher than those of the control group. In addition, the ethylene production of AhACO1 and AhACO2 transgenic plants were 2.79 and 1.87 times higher than that of control peanut, respectively. These results showed that AhACO1 and AhACO2 could significantly improve the salt stress tolerance of transgenic peanut.
Salt Tolerance/genetics*
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Arachis/genetics*
;
Plant Breeding
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Ethylenes/metabolism*
;
Plants, Genetically Modified/genetics*
;
Gene Expression Regulation, Plant
;
Plant Proteins/genetics*
2.Advances of salt stress-responsive transcription factors in plants.
Lingyun PAN ; Jiaji MA ; Jianmin LI ; Bingbing YIN ; Chang FU
Chinese Journal of Biotechnology 2022;38(1):50-65
Salt stress may cause primary osmotic stress and ion toxicity, as well as secondary oxidative stress and nutritional stress in plants, which hampers the agricultural production. Salt stress-responsive transcription factors can mitigate the damage of salt stress to plants through regulating the expression of downstream target genes. Based on the soil salinization and its damage to plants, and the central regulatory role of transcription factors in the plant salt stress-responsive signal transduction network, this review summarized the salt stress-responsive signal transduction pathways that the transcription factors are involved, and the application of salt stress-responsive transcription factors to enhance the salt tolerance of plants. We also reviewed the transcription factors-regulated complex downstream gene network which is formed by forming homo- or heterodimers between transcription factors and by forming complexes with regulatory proteins. This paper provides a theoretical basis for understanding the role of salt stress-responsive transcription factors in the salt stress regulatory network, which may facilitate the molecular breeding for improved stress resistance.
Gene Expression Regulation, Plant
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Osmotic Pressure
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Plant Proteins/metabolism*
;
Plants, Genetically Modified
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Salt Stress
;
Salt Tolerance
;
Stress, Physiological
;
Transcription Factors/metabolism*
3.Screening and evaluation of saline-alkali-tolerant and growth-promoting bacteria.
Xue SUN ; Yonghua DONG ; Na WANG ; Wenhui CUI ; Xianyan LIAO ; Li LIU
Chinese Journal of Biotechnology 2020;36(7):1356-1364
Salinity is the most important factor for the growth of crops. It is an effective method to alleviate the toxic effect caused by salt stress using saline-alkali-tolerant and growth-promoting bacteria in agriculture. Seven salt-tolerant bacteria were screened from saline-alkali soil, and the abilities of EPS production, alkalinity reduction and IAA production of the selected strains were investigated. A dominant strain DB01 was evaluated. The abilities of EPS production, alkalinity reduction and IAA production of strain DB01 were 0.21 g/g, 8.7% and 8.97 mg/L, respectively. The isolate was identified as Halomonas aquamarina by partial sequencing analysis of its 16S rRNA genes, and had the ability to inhibit the growth of Fusarium oxysporum f. sp., Alternaria solani, Phytophthora sojae and Rhizoctonia cerealis. It also could promote root length and germination rate of wheat seedlings under salt stress. Halomonas aquamarina can provide theoretical basis for the development of soil microbial resources and the application in saline-alkali soil improvement.
Alkalies
;
metabolism
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Bacteria
;
drug effects
;
genetics
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Halomonas
;
genetics
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Plant Roots
;
microbiology
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RNA, Ribosomal, 16S
;
genetics
;
Salt Tolerance
;
genetics
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Seedlings
;
growth & development
;
microbiology
;
Soil
;
chemistry
;
Soil Microbiology
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Triticum
;
microbiology
4.Mechanism of salicylic acid ameliorates salt-induced changes in Andrographis paniculata.
Qi-Chao WANG ; Xu LING ; Miao ZHANG ; Wei-Guo CHAI ; Xue-Min ZHANG ; Xu XIN-HAN ; Zong-Suo LIANG
China Journal of Chinese Materia Medica 2020;45(22):5465-5471
In this study, Andrographis paniculata seedlings were used as experimental materials to study the effects of salicylic acid(SA) on the growth and effective component accumulation of A. paniculata under NaCl stress. The results showed that with the increase of NaCl concentration, the growth of A. paniculata seedlings was significantly inhibited, and the content of carotene and carotenoid decreased. The activity of antioxidant enzyme was enhanced. At the same time, the contents of proline, proline and soluble protein were on the rise. The contents of andrographolide, new andrographolide and deoxyandrographolide showed an upward trend, while deoxyandrographolide showed a downward trend. Treatment with 100 mmol·L~(-1) NaCl+5 mg·L~(-1) SA showed a significant increase in antioxidant enzyme activity in A. paniculata leaves. Treatment with 100 mmol·L~(-1) NaCl+10 mg·L~(-1) SA showed significant changes in soluble protein and proline content in A. paniculata leaves, while MDA content in A. paniculata leaves significantly decreased. 10 mg·L~(-1) SA had the best effect on the growth of A. paniculata seedlings under salt stress. Under the treatment of 50 mmol·L~(-1) NaCl+10 mg·L~(-1) SA, fresh weight, dry weight and leaf dry weight of A. paniculata seedlings reached the highest level, which were 1.02, 1.09 and 1.11 times of those in the control group, respectively. The concentrations of NaCl and 10 mg·L~(-1) SA were significantly higher than those of the control group. Four key enzyme genes of A. paniculata diterpene lactone synthesis pathway were selected to explore the molecular mechanism of salicylic acid to alleviate salt stress. With the increase of salt stress, the relative expressions of HMGR, GGPS and ApCPS were up-regulated, indicating that salt stress may enhance the synthesis of A. paniculata diterpene lactone through MVA pathway. SA can effectively promote the growth and development of A. paniculata under salt stress, improve its osmotic regulation and antioxidant capacity, improve its salt tolerance, and alleviate the effects of salt stress on A. paniculata.
Andrographis
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Plant Leaves
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Salicylic Acid
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Salt Tolerance
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Seedlings/genetics*
5.Salinity tolerance in barley during germination- homologs and potential genes.
Edward MWANDO ; Tefera Tolera ANGESSA ; Yong HAN ; Chengdao LI
Journal of Zhejiang University. Science. B 2020;21(2):93-121
Salinity affects more than 6% of the world's total land area, causing massive losses in crop yield. Salinity inhibits plant growth and development through osmotic and ionic stresses; however, some plants exhibit adaptations through osmotic regulation, exclusion, and translocation of accumulated Na+ or Cl-. Currently, there are no practical, economically viable methods for managing salinity, so the best practice is to grow crops with improved tolerance. Germination is the stage in a plant's life cycle most adversely affected by salinity. Barley, the fourth most important cereal crop in the world, has outstanding salinity tolerance, relative to other cereal crops. Here, we review the genetics of salinity tolerance in barley during germination by summarizing reported quantitative trait loci (QTLs) and functional genes. The homologs of candidate genes for salinity tolerance in Arabidopsis, soybean, maize, wheat, and rice have been blasted and mapped on the barley reference genome. The genetic diversity of three reported functional gene families for salt tolerance during barley germination, namely dehydration-responsive element-binding (DREB) protein, somatic embryogenesis receptor-like kinase and aquaporin genes, is discussed. While all three gene families show great diversity in most plant species, the DREB gene family is more diverse in barley than in wheat and rice. Further to this review, a convenient method for screening for salinity tolerance at germination is needed, and the mechanisms of action of the genes involved in salt tolerance need to be identified, validated, and transferred to commercial cultivars for field production in saline soil.
Gene Expression Regulation, Plant
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Genetic Variation
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Germination/physiology*
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Hordeum/physiology*
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Salt Tolerance/genetics*
6.Isolation, Identification and Enzymatic Activity of Halotolerant and Halophilic Fungi from the Great Sebkha of Oran in Northwestern of Algeria
Rajaa CHAMEKH ; Franck DENIEL ; Christelle DONOT ; Jean Luc JANY ; Patrice NODET ; Lakhder BELABID
Mycobiology 2019;47(2):230-241
The Great Sebkha of Oran is a closed depression located in northwestern of Algeria. Despite the ranking of this sebkha among the wetlands of global importance by Ramsar Convention in 2002, no studies on the fungal community in this area have been carried out. In our study, samples were collected from two different regions. The first region is characterized by halophilic vegetation and cereal crops and the second by a total absence of vegetation. The isolated strains were identified morphologically then by molecular analysis. The biotechnological interest of the strains was evaluated by testing their ability to grow at different concentration of NaCl and to produce extracellular enzymes (i.e., lipase, amylase, protease, and cellulase) on solid medium. The results showed that the soil of sebkha is alkaline, with the exception of the soil of cereal crops that is neutral, and extremely saline. In this work, the species Gymnoascus halophilus, Trichoderma gamsii, the two phytopathogenic fungi, Fusarium brachygibbosum and Penicillium allii, and the teleomorphic form of P. longicatenatum observed for the first time in this species, were isolated for the first time in Algeria. The halotolerance test revealed that the majority of the isolated are halotolerant. Wallemia sp. and two strains of G. halophilus are the only obligate halophilic strains. All strains are capable to secrete at least one of the four tested enzymes. The most interesting species presenting the highest enzymatic index were Aspergillus sp. strain A4, Chaetomium sp. strain H1, P. vinaceum, G. halophilus, Wallemia sp. and Ustilago cynodontis.
Algeria
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Amylases
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Aspergillus
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Chaetomium
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Depression
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Edible Grain
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Fungi
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Fusarium
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Lipase
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Penicillium
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Salt-Tolerance
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Soil
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Trichoderma
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Ustilago
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Wetlands
7.Effects of Sodium Citrate on Salt Sensitivity and Kidney Injury in Chronic Renal Failure.
Sejoong KIM ; Jin Young YANG ; Eun Sook JUNG ; Jeonghwan LEE ; Nam Ju HEO ; Jae Wook LEE ; Ki Young NA ; Jin Suk HAN
Journal of Korean Medical Science 2014;29(12):1658-1664
Metabolic acidosis, which is observed in salt-sensitive hypertension, is also associated with kidney injury. Alkali therapy in chronic renal failure (CRF) may ameliorate the progression of kidney disease; however, few studies have examined the effects of alkali therapy on salt sensitivity and kidney injury in CRF. We randomly administered standard diet (SD), sodium chloride with 20% casein diet (NACL), or sodium citrate with 20% casein diet (NACT) to Sprague-Dawley rats after a CRF or a sham operation. Four weeks after 5/6 nephrectomy, serum bicarbonate levels were higher in the NACT-treated group. On the pressure-natriuresis curve, NACT-treated CRF rats were more salt-resistant than NACL-treated CRF rats. Additionally, the NACT-treated CRF group showed less tubulointerstitial damage than the NACL-treated CRF group. The expression and immunoreactivity of NHE3 in the kidney in the NACT-treated CRF group were lower than those in the NACL-treated CRF group. We observed that dietary NACT as alkali therapy in CRF might improve the altered salt-sensitivity and ameliorate the progression of kidney injury compared to the NACL diet, which may be related to reduced renal NHE3 expression.
Acute Kidney Injury/diagnosis/*drug therapy/*physiopathology
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Administration, Oral
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Animals
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Citrates/*administration & dosage
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*Dietary Supplements
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Kidney Failure, Chronic/*diet therapy/*physiopathology
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Male
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Rats
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Rats, Sprague-Dawley
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Salt-Tolerance/*drug effects
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Treatment Outcome
8.A new perylenequinone from a halotolerant fungus, Alternaria sp. M6.
Song-Ya ZHANG ; Zhan-Lin LI ; Jiao BAI ; Yu WANG ; Li-Min ZHANG ; Xin WU ; Hui-Ming HUA
Chinese Journal of Natural Medicines (English Ed.) 2012;10(1):68-71
AIM:
To study the metabolites of a halotolerant fungus Alternaria sp. M6.
METHODS:
The metabolites were isolated and purified by various chromatographic techniques. Their structures were determined on the basis of physical properties and spectroscopic data.
RESULTS:
Nine compounds were isolated and identified as 8β-chloro-3, 6aα, 7β, 9β, 10-pentahydroxy-9, 8, 7, 6a-tetrahydroperylen-4(6aH)-one (1), alterperylenol (2), dihydroalterperylenol (3), adenine (4), adenosine (5), deoxyadenosine (6), guanosine (7), tryptophan (8), and hexadecanoic acid (9).
CONCLUSION
Compound 1 is a new perylenequinone.
Alternaria
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chemistry
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metabolism
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Biological Products
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chemistry
;
isolation & purification
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Molecular Structure
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Perylene
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analogs & derivatives
;
chemistry
;
isolation & purification
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Quinones
;
chemistry
;
isolation & purification
;
Salt Tolerance
9.Study on salt stress tolerance of Chrysanthemum morifolium 'Hangbaiju' and 'Huangju' and F1 seedlings.
Kangcai WANG ; Ying HUANG ; Xingli TANG ; Danxia LI
China Journal of Chinese Materia Medica 2011;36(17):2321-2324
OBJECTIVETo study the salt stress tolerance of Hongxinju, Huangju and F1 seedlings from orthogonal and reciprocal cross under different salt treatments. Grope for transmissibility of salt tolerance between parents and F1 seedlings, and relativity between flavone, chlorogenic acid contents and salt tolerance.
METHODThe materials were put in 5 different concentrations of Hoagland nutrient solution (0, 40, 80, 120, 160 mmol x L(-1)) containing NaCl, keeping grads while raising the consistency of NaCl day by day. The injured leaf area per plant, proline, betaine, MDA, flavones and chlorogenic acid contents were measured and analyzed after treatment.
RESULTAs NaCl concentration was below 120 mmol x L(-1), the salt tolerance of Hongxinju was higher than that of Huangju, the salt tolerance of Hongxinju x Huangju higher than that of parents, the salt tolerance of Huangju x Hongxinju was at the level of parents. As NaCl concentration between 120 to 160 mmol x L(-1), the salt tolerance of Huangju was higher than that of Hongxinju, the salt tolerance of Huangju x Hongxinju higher than that of parents and the salt tolerance of Hongxinju x Huangju was at the level of parents.
CONCLUSIONSalt tolerance of F1 is more influenced by female parent, relativity showed between flavonoids, chlorogenic acid contents and salt tolerance.
Breeding ; China ; Chlorides ; metabolism ; Chrysanthemum ; genetics ; growth & development ; physiology ; Salt-Tolerance ; Seedlings ; genetics ; growth & development ; physiology
10.Variation in Sodium Chloride Resistance of Cenococcum geophilum and Suillus granulatus Isolates in Liquid Culture.
Keisuke OBASE ; Jong Kyu LEE ; Sun Keun LEE ; Sang Yong LEE ; Kun Woo CHUN
Mycobiology 2010;38(3):225-228
We studied the resistance of Cenococcum geophilum and Suillus granulatus isolates to NaCl during growth under axenic culture conditions. C. geophilum isolates displayed variations in NaCl resistance; mycelial growth of most isolates was inhibited above 200mM. All isolates of S. granulatus were tolerant to high NaCl content.
Axenic Culture
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Salinity
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Salt-Tolerance
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Sodium
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Sodium Chloride

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