Fungal biopriming increases the resistance of wheat to abiotic stress |
El-Sayed, Ashraf S.A.
(Enzymology and Fungal Biotechnology Lab, Botany and Microbiology Department, Faculty of Science, Zagazig University)
Dief, Hanan E. (Enzymology and Fungal Biotechnology Lab, Botany and Microbiology Department, Faculty of Science, Zagazig University) Hashem, ElSayed A. (Enzymology and Fungal Biotechnology Lab, Botany and Microbiology Department, Faculty of Science, Zagazig University) Desouky, Ahmed M. (STEM School) Shah, Zamarud (Department of Biotechnology, University of Science and Technology, Bannu) Fawzan, Salwa (Enzymology and Fungal Biotechnology Lab, Botany and Microbiology Department, Faculty of Science, Zagazig University) |
1 | Asaf S, Khan AL, Khan MA, Imran QM, Yun BW, Lee I-J (2017) Osmoprotective functions conferred to soybean plants via inoculation with Sphingomonas sp. LK11 and exogenous trehalose. Microbiological research 205:135-145 DOI |
2 | Carillo P, Annunziata MG, Pontecorvo G, Fuggi A, Woodrow P (2011) Salinity stress and salt tolerance, Abiotic Stress in Plants-Mechanisms and Adaptations. InTech |
3 | Cramer GR (2002) Response of abscisic acid mutants of Arabidopsis to salinity. Functional plant biology 29:561-567 DOI |
4 | Dalil B (2014) Response of medicinal plants to seed priming: a review. International Journal of Plant, Animal and Environmental Sciences 4:741-745 |
5 | Egamberdieva D, Wirth SJ, Alqarawi AA, Abd_Allah EF, Hashem A (2017) Phytohormones and beneficial microbes: essential components for plants to balance stress and fitness. Frontiers in microbiology 8:2104 DOI |
6 | El-Mekay A, Hegab HM, El-Baz A, Hudson SM (2013) Kinetic properties and role of bacterial chitin deacetylase in the bioconversion of chitin to chitosan. Recent Patents on Biotechnology 7:234-241 DOI |
7 | Waqas M, Khan AL, Shahzad R, Ullah I, Khan AR, Lee I-J (2015) Mutualistic fungal endophytes produce phytohormones and organic acids that promote japonica rice plant growth under prolonged heat stress. Journal of Zhejiang University SCIENCE B 16:1011-1018 DOI |
8 | Wu H, Ye H, Yao R, Zhang T, Xiong L (2015) OsJAZ9 acts as a transcriptional regulator in jasmonate signaling and modulates salt stress tolerance in rice. Plant Science 232:1-12 DOI |
9 | Yadav S, Irfan M, Ahmad A, Hayat S (2011) Causes of salinity and plant manifestations to salt stress: a review. Journal of Environmental Biology 32:667 |
10 | El-Baz AF, El-Enshasy HA, Shetaia YM, Mahrous H, Othman NZ, Yousef AE (2018) Semi-industrial Scale Production of a New Yeast with Probiotic Traits, Cryptococcus sp. YMHS, Isolated from the Red Sea. Probiotics and Antimicrobial Proteins 10:77-88 DOI |
11 | El-Sayed ASA (2009) L-Methioninase production by Aspergillus flavipes under solid-state fermentation. Journal of Basic Microbiology 49(4):331-341 DOI |
12 | El-Sayed ASA, Abdel-Azeim S, Ibrahim HM, Yassin MA, Abdel-Ghany SE, Esener S, Ali GS (2015a) Biochemical stability and molecular dynamic characterization of Aspergillus fumigatus cystathionine γ-lyase in response to various reaction effectors. Enzyme and Microbial Technology 81: 31-46 DOI |
13 | El-Sayed ASA, Shindia AA, Zeid AAA, Yassin AM, Sitohy MZ, Sitohy B (2019a) Aspergillus nidulans thermostable arginine deiminase-Dextran conjugates with enhanced molecular stability, proteolytic resistance, pharmacokinetic properties and anticancer activity. Enzyme and Microbial Technology 131:109432 DOI |
14 | Yamaji K, Watanabe Y, Masuya H, Shigeto A, Yui H, Haruma T (2016) Root Fungal Endophytes Enhance Heavy-Metal Stress Tolerance of Clethra barbinervis Growing Naturally at Mining Sites via Growth Enhancement, Promotion of Nutrient Uptake and Decrease of Heavy-Metal Concentration. PloS one 11:e0169089 DOI |
15 | El-Baz AF, Shetaia YM, Elkhouli RR (2011b) Kinetic behavior of Candida tropicalis during xylitol production using semisynthetic and hydrolysate based media. African Journal of Biotechnology 10:16617-16625 |
16 | El-Sayed ASA, Shindia AA, Ali GS, Yassin MA, Hussein H, Awad SA, Ammar HA (2021) Production and bioprocess optimization of antitumor Epothilone B analogue from Aspergillus fumigatus, endophyte of Catharanthus roseus, with response surface methodology. Enzyme and Microbial Technology 143:109718 DOI |
17 | Kang S-M, Khan AL, Waqas M, You Y-H, Kim J-H, Kim J-G, Hamayun M, Lee I-J (2014) Plant growth-promoting rhizobacteria reduce adverse effects of salinity and osmotic stress by regulating phytohormones and antioxidants in Cucumis sativus. Journal of Plant Interactions 9:673-682 DOI |
18 | El-Sayed AS, Khalaf SA, Abdel-Hamid G, El-Batrik MI (2015b) Screening, morphological and molecular characterization of fungi producing cystathionine γ-lyase. Acta Biologica Hungarica 66:119-132 DOI |
19 | El-Sayed AS, Khalaf SA, Abdel-Hamid G, El-Batrik MI (2015c) Screening, morphological and molecular characterization of fungi producing cystathionine γ-lyase. Acta Biologica Hungarica 66:119-132 DOI |
20 | El-Sayed ASA, Yassin, MA, Ali GS (2015e) Transcriptional and proteomic profiling of Aspergillus flavipes in response to sulfur starvation PLoS ONE, 10 (12), art. no. e0144304 DOI |
21 | Zhao Y, Dong W, Zhang N, Ai X, Wang M, Huang Z, Xiao L, Xia G (2014) A wheat allene oxide cyclase gene enhances salinity tolerance via jasmonate signaling. Plant physiology 164:1068-1076 DOI |
22 | Singh S, Singh UB, Trivedi M, Sahu PK, Paul S, Paul D, Saxena AK (2020) Seed biopriming with salt-tolerant endophytic Pseudomonas geniculata-modulated biochemical responses provide ecological fitness in maize (Zea mays L.) grown in saline sodic soil. International Journal of Environmental Research and Public Health 17:253 |
23 | Rawat L, Singh Y, Shukla N, Kumar J (2012) Seed biopriming with salinity tolerant isolates of Trichoderma harzianum alleviates salt stress in rice: growth, physiological and biochemical characteristics. Journal of Plant pathology 94:353-365 |
24 | Rodriguez R, White Jr J, Arnold A, Redman R (2009) Fungal endophytes: diversity and functional roles. New phytologist 182:314-330 DOI |
25 | Waqas M, Khan AL, Kamran M, Hamayun M, Kang S-M, Kim Y-H, Lee I-J (2012) Endophytic fungi produce gibberellins and indoleacetic acid and promotes host-plant growth during stress. Molecules 17:10754-10773 DOI |
26 | Xu J, Li X-L, Luo L (2012) Effects of engineered Sinorhizobium meliloti on cytokinin synthesis and tolerance of alfalfa to extreme drought stress. Appl. Environ. Microbiol. 78:8056-8061 DOI |
27 | Abdel-Monem OA, El-Baz AF, Shetaia YM, El-Sabbagh SM (2012) Production and application of thermostable cellulase-free xylanase by Aspergillus fumigatus from agricultural wastes. Industrial Biotechnology 8:152-161 DOI |
28 | Maheshwari R (2006) What is an endophytic fungus. Curr Sci 90:1309 |
29 | Lauchli A, Grattan S (2007) Plant growth and development under salinity stress, p 1-32, Advances in molecular breeding toward drought and salt tolerant crops. Springer |
30 | Ma X, Zhang J, Huang B (2016) Cytokinin-mitigation of salt-induced leaf senescence in perennial ryegrass involving the activation of antioxidant systems and ionic balance. Environmental and Experimental Botany 125:1-11 DOI |
31 | Ryu H, Cho Y-G (2015) Plant hormones in salt stress tolerance. Journal of Plant Biology 58:147-155 DOI |
32 | Hardoim PR, Van Overbeek LS, Berg G, Pirttila AM, Compant S, Campisano A, Doring M, Sessitsch A (2015) The hidden world within plants: ecological and evolutionary considerations for defining functioning of microbial endophytes. Microbiology and Molecular Biology Reviews 79:293-320 DOI |
33 | Heydecker W, Higgins J, Gulliver R (1973) Accelerated germination by osmotic seed treatment. Nature 246:42 DOI |
34 | Iqbal MA, Khalid M, Zahir ZA, Ahmad R (2016) Auxin Producing Plant Growth Promoting Rhizobacteria Improve Growth, Physiology and Yield of Maize under Saline Field Conditions. International Journal of Agriculture & Biology 18 |
35 | Patel JS, Vitoreli A, Palmateer AJ, El-Sayed A, Norman DJ, Goss EM, Brennan MS, Ali GS (2016) Characterization of Phytophthora spp. Isolated from ornamental plants in Florida. Plant Disease 100:500-509 DOI |
36 | Redman RS, Kim YO, Woodward CJ, Greer C, Espino L, Doty SL, Rodriguez RJ (2011) Increased fitness of rice plants to abiotic stress via habitat adapted symbiosis: a strategy for mitigating impacts of climate change. PLOS one 6:e14823 DOI |
37 | Selvakumar G, Kim K, Hu S, Sa T (2014) Effect of salinity on plants and the role of arbuscular mycorrhizal fungi and plant growth-promoting rhizobacteria in alleviation of salt stress, p. 115-144, Physiological mechanisms and adaptation strategies in plants under changing environment. Springer |
38 | Singh H, Jassal RK, Kang J, Sandhu S, Kang H, Grewal K (2015) Seed priming techniques in field crops-A review. Agricultural Reviews 36:251-264 |
39 | Munns R, Schachtman D, Condon A (1995) The significance of a two-phase growth response to salinity in wheat and barley. Functional Plant Biology 22:561-569 DOI |
40 | Mishra Y, Singh A, Batra A, Sharma M (2014) Understanding the biodiversity and biological applications of endophytic fungi: a review. J Microb Biochem Technol S 8:2 |
41 | Paparella S, Araujo S, Rossi G, Wijayasinghe M, Carbonera D, Balestrazzi A (2015) Seed priming: state of the art and new perspectives. Plant cell reports 34:1281-1293 DOI |
42 | Pons R, Cornejo MJ, Sanz A (2013) Is ABA involved in tolerance responses to salinity by affecting cytoplasm ion homeostasis in rice cell lines? Plant physiology and biochemistry 62:88-94 DOI |
43 | Waller F, Achatz B, Baltruschat H, Fodor J, Becker K, Fischer M, Heier T, Huckelhoven R, Neumann C, von Wettstein D (2005) The endophytic fungus Piriformospora indica reprograms barley to salt-stress tolerance, disease resistance, and higher yield. Proceedings of the National Academy of Sciences of the United States of America 102:13386-13391 DOI |
44 | Jini D, Joseph B (2017) Physiological mechanism of salicylic acid for alleviation of salt stress in rice. Rice Science 24:97-108 DOI |
45 | Kannadan S, Rudgers J (2008) Endophyte symbiosis benefits a rare grass under low water availability. Functional Ecology 22:706-713 DOI |
46 | Kaya C, Tuna A, Yokas I (2009) The role of plant hormones in plants under salinity stress, p 45-50, Salinity and Water Stress. Springer |
47 | Song M, Li X, Saikkonen K, Li C, Nan Z (2015) An asexual Epichloe endophyte enhances waterlogging tolerance of Hordeum brevisubulatum. Fungal Ecology 13:44-52 DOI |
48 | Tilbrook J, Roy S (2013) Salinity tolerance, p 133-178, Plant Abiotic Stress. John Wiley & Sons, Inc |
49 | Rasool S, Hameed A, Azooz M, Siddiqi T, Ahmad P (2013) Salt stress: causes, types and responses of plants, p 1-24, Ecophysiology and responses of plants under salt stress. Springer |
50 | Prasad SR, Kamble UR, Sripathy K, Bhaskar KU, Singh D (2016) Seed bio-priming for biotic and abiotic stress management, p 211-228, Microbial inoculants in sustainable agricultural productivity. Springer |
51 | Afzal I, Rehman HU, Naveed M, Basra SMA (2016) Recent advances in seed enhancements, New Challenges in Seed Biology-Basic and Translational Research Driving Seed Technology. InTech |
52 | Khan AL, Hamayun M, Kang S-M, Kim Y-H, Jung H-Y, Lee J-H, Lee I-J (2012) Endophytic fungal association via gibberellins and indole acetic acid can improve plant growth under abiotic stress: an example of Paecilomyces formosus LHL10. BMC microbiology 12:3 DOI |
53 | Jaiswal A, Pandurangam V, Sharma S (2014) Effect of salicylic acid in soybean (Glycine Max L. Meril) under salinity stress. The Bioscan 9:671-676 |
54 | Maamoun HS, Rabie GH, Shaker I, Alaidaroos BA, El-Sayed ASA (2021) Biochemical properties of tyrosinase from Aspergillus terreus and Penicillium copticola; undecanoic acid from aspergillus flavus, an endophyte of Moringa oleifera, is a novel potent tyrosinase inhibitor. Molecules 26(5):1309 DOI |
55 | Wani SH, Kumar V, Shriram V, Sah SK (2016) Phytohormones and their metabolic engineering for abiotic stress tolerance in crop plants. The Crop Journal 4:162-176 DOI |
56 | Porras-Alfaro A, Bayman P (2011) Hidden fungi, emergent properties: endophytes and microbiomes. Annual review of phytopathology 49 |
57 | Abdella A, El-Baz AF, Ibrahim IA, Mahro us EE, Yang S-T (2018a) Biotransformation of soy flour isoflavones by Aspergillus niger NRRL 3122 β-glucosidase enzyme. Natural Product Research 32:2382-2391 DOI |
58 | Abdella A, El-Baz AF, Mahrous EE, El Maksoud AAA, Ibrahim IA, Abdel-Monem AR, Yang S-T (2018b) Response surface methodology for optimization of genistein content in soy flour and its effect on the antioxidant activity. Iranian Journal of Pharmaceutical Research 17:1026-1035 |
59 | Bastias DA, Alejandra Martinez-Ghersa M, Newman JA, Card SD, Mace WJ, Gundel PE (2018) The plant hormone salicylic acid interacts with the mechanism of antiherbivory conferred by fungal endophytes in grasses. Plant, cell & environment 41:395-405 DOI |
60 | Chen T, Li C, White JF, Nan Z (2019) Effect o f the fungal endophyte Epichloe bromicola on polyamines in wild barley (Hordeum brevisubulatum) under salt stress. Plant and soil 436:29-48 DOI |
61 | de Zelicourt A, Al-Yousif M, Hirt H (2013) Rhizosphere microbes as essential partners for plant stress tolerance. Molecular Plant 6:242-245 DOI |
62 | El-Baz AF, Shetaia MY, Elkhouli RR (2011a) Xylitol production by candida tropicalis under different statistically optimized growth conditions. African Journal of Biotechnology 10:15353-15363 |
63 | Milosevic NA, Marinkovic JB, Tintor BB (2012) Mitigating abiotic stress in crop plants by microorganisms. Zbornik Matice srpske za prirodne nauke 2012:17-26 DOI |
64 | Lutts S, Benincasa P, Wojtyla L, Kubala S, Pace R, Lechowska K, Quinet M, Garnczarska M (2016) Seed priming: New comprehensive approaches for an old empirical technique, New Challenges in Seed Biology-Basic and Translational Research Driving Seed Technology. InTech |
65 | Machado R, Serralheiro R (2017) Soil salinity: effect on vegetable crop growth. Management practices to prevent and mitigate soil salinization. Horticulturae 3:30 DOI |
66 | Mann A, Bishi S, Mahatma M, Kumar A (2015) Metabolomics and Salt Stress Tolerance in Plants, p. 251-266, Managing Salt Tolerance in Plants. CRC Press |
67 | Mousavi M, Omidi H (2019) Seed priming with bio-priming improves stand establishment, seed germination and salinity tolerance in canola cultivar (Hayola 401). Plant Physiology 9:2807-2817 |
68 | Munns R, Tester M (2008) Mechanisms of salinity tolerance. Annu Rev Plant Biol 59:651-681 DOI |
69 | El-Sayed ASA, Fathalla M, Yassin MA, Zein N, Morsy S, Sitohy M, Sitohy B (2020) Conjugation of Aspergillus flavipes taxol with porphyrin increases the anticancer activity of taxol and ameliorates its cytotoxic effects. Molecules 25(2):263 DOI |
70 | El-Baz FN, Gamal RF, El-Baz AF, Ibrahim NE, ElMekawy A (2017) Biochemical and biotechnological studies on a novel purified bacillus cholesterol oxidase tolerant to solvent and thermal stress. Biocatalysis and Biotransformation 35(3):205-214 DOI |
71 | El-Sayed AS, Shindia AA, Zaher Y (2012) L-Amino acid oxidase from filamentous fungi: Screening and optimization Annals of Microbiology 62(2):773-784 DOI |
72 | El-Sayed ASA, Hassan AEA, Shindia AA, Mohamed SG, Sitohy MZ (2016) Aspergillus flavipes methionine γ-lyase-dextran conjugates with enhanced structural, proteolytic stability and anticancer efficiency. Journal of Molecular Catalysis B: Enzymatic 133:S15-S24 |
73 | El Sayed MT, El-Sayed ASA (2020b) Tolerance and mycoremediation of silver ions by Fusarium solani. Heliyon 6:e03866 DOI |
74 | El-Sayed ASA, Yassin MA, Ibrahim H (2015d) Coimmobilization of l -methioninase and glutamate dehydrogenase: Novel approach for L-homoalanine synthesis Biotechnology and Applied Biochemistry 62:514-522 DOI |
75 | Ibrahim EA (2016) Seed priming to alleviate salinity stress in germinating seeds. Journal of plant physiology 192:38-46 DOI |
76 | Iqbal N, Khan NA, Umar S (2014) PHOTOSYNTHETIC INHIBITION UNDER SALINITY CHALLENGED ENVIRONMENT: AN INSIGHT INTO REGULATION OF RUBISCO. FUNCTIONAL GENOMICS, PHYSIOLOGICAL PROCESSES AND ENVIRONMENTAL ISSUES:167 |
77 | Jisha K, Vijayakumari K, Puthur JT (2013) Seed priming for abiotic stress tolerance: an overview. Acta Physiologiae Plantarum 35:1381-1396 DOI |
78 | Feto N, Brahim A, Jlidi M, Daoud L, Ben-Ali M, Akremi A, Hmani H (2019) Seed-Biopriming of Durum Wheat with Diazotrophic Plant Growth Promoting Bacteria (PGPB) Enhanced Tolerance to Fusarium Head Blight (FHB) and Salinity Stress |
79 | El-Sayed ASA, Fujimoto S, Yamada C, Suzuki H (2010) Enzymatic synthesis of γ-glutamylglutamine, a stable glutamine analogue, by γ-glutamyltranspeptidase from Escherichia coli K-12. Biotechnology Letters 32:121877-1881 |
80 | Fahad S, Hussain S, Matloob A, Khan FA, Khaliq A, Saud S, Hassan S, Shan D, Khan F, Ullah N (2015) Phytohormones and plant responses to salinity stress: a review. Plant growth regulation 75:391-404 DOI |
81 | Chakraborty U, Chakraborty B, Dey P, Chakraborty AP (2015) Role of microorganisms in alleviation of abiotic stresses for sustainable agriculture. Abiotic stresses in crop plants 232-253 |
82 | Lata R, Chowdhury S, Gond SK, White Jr JF (2018) Induction of abiotic stress tolerance in plants by endophytic microbes. Letters in applied microbiology 66:268-276 DOI |
83 | Khan AA, El-Sayed A, Akbar A, Mangravita-Novo A, Bibi S, Afzal Z, Norman DJ, Ali GS (2017) A highly efficient ligation-independent cloning system for CRISPR/Cas9 based genome editing in plants. Plant Methods 13:86 DOI |
84 | Rawat L, Singh Y, Shukla N, Kumar J (2011) Alleviation of the adverse effects of salinity stress in wheat (Triticum aestivum L.) by seed biopriming with salinity tolerant isolates of Trichoderma harzianum. Plant and soil 347:387 DOI |
85 | Abdel-Fatah SS, El-Batal AI, El-Sherbiny GM, Khalaf MA, El-Sayed AS (2021) Production, bioprocess optimization and γ-irradiation of Penicillium polonicum, as a new Taxol producing endophyte from Ginko biloba Biotechnology Reports, 30, art. no. e00623 |
86 | Pehlivan N, Yesilyurt AM, Durmus N, Karaoglu SA (2017) Trichoderma lixii ID11D seed biopriming mitigates dose dependent salt toxicity in maize. Acta Physiologiae Plantarum 39:79 DOI |
87 | Shekafandeh A, Sirooeenejad S, Alsmoushtaghi E (2017) Influence of gibberellin on increasing of sodium chloride tolerance via some morpho-physiological changes in two olive cultivars. Agriculturae Conspectus Scientificus 82:367-373 |
88 | Khan AL, Waqas M, Khan AR, Hussain J, Kang S-M, Gilani SA, Hamayun M, Shin J-H, Kamran M, Al-Harrasi A (2013) Fungal endophyte Penicillium janthinellum LK5 improves growth of ABA-deficient tomato under salinity. World Journal of Microbiology and Biotechnology 29:2133-2144 DOI |
89 | Kaya C, Ashraf M, Dikilitas M, Tuna AL (2013) Alleviation of salt stress-induced adverse effects on maize plants by exogenous application of indoleacetic acid (IAA) and inorganic nutrients-A field trial. Australian Journal of Crop Science 7:249 |
90 | Vardharajula S, SkZ A, Shiva Krishna Prasad Vurukonda S, Shrivastava M (2017) Plant growth promoting endophytes and their interaction with plants to alleviate abiotic stress. Current Biotechnology 6:252-263 |
91 | Le Gall H, Philippe F, Domon J-M, Gillet F, Pelloux J, Rayon C (2015) Cell wall metabolism in response to abiotic stress. Plants 4:112-166 DOI |
92 | Mondal S, Bose B (2014) An impact of seed priming on disease resistance: a review, p 193-203, Microbial Diversity and Biotechnology in Food Security. Springer |
93 | El Sayed MT, El-Sayed ASA (2020a) Biocidal activity of metal nanoparticles synthesized by Fusarium solani against multidrug-resistant bacteria and mycotoxigenic fungi. Journal of Microbiology and Biotechnology 30:226-236 DOI |
94 | El-Sayed ASA, George NM, Yassin MA, Alaidaroos BA, Bolbol AA, Mohamed MS, Rady AM, Aziz SW, Zayed, RA, Sitohy MZ (2019b) Purification and Characterization of Ornithine Decarboxylase from Aspergillus terreus; Kinetics of Inhibition by Various Inhibitors. Molecules (Basel, Switzerland), 24(15) |
95 | Iqbal M, Ashraf M (2013) Gibberellic acid mediated induction of salt tolerance in wheat plants: Growth, ionic partitioning, photosynthesis, yield and hormonal homeostasis. Environmental and Experimental Botany 86:76-85 DOI |
96 | Singh LP, Gill SS, Tuteja N (2011) Unraveling the role of fungal symbionts in plant abiotic stress tolerance. Plant signaling & behavior 6:175-191 DOI |
97 | Golldack D, Li C, Mohan H, Probst N (2014) Tolerance to drought and salt stress in plants: unraveling the signaling networks. Frontiers in plant science 5:151 DOI |
98 | Formentin E, Barizza E, Stevanato P, Falda M, Massa F, Tarkowska D, Novak O, Lo Schiavo F (2018) Fast regulation of hormone metabolism contributes to salt tolerance in rice (Oryza sativa spp. Japonica, L.) by inducing specific morpho-physiological responses. Plants 7:75 DOI |
99 | Gheyi H, Dias NdS, Lacerda Cd, Gomes Filho E (2016) Physiology and biochemistry of plants growing under salt stress |
100 | Golan Y, Shirron N, Avni A, Shmoish M, Gepstein S (2017) Cytokinins Induce Transcriptional Reprograming and Improve Arabidopsis Plant Performance under Drought and Salt Stress Conditions. Front. Abiotic Stresses in Agroecology: A Challenge for Whole Plant Physiology 4:125 |
101 | Guo Y, Jiang Q, Hu Z, Sun X, Fan S, Zhang H (2018) Function of the auxin-responsive gene TaSAUR75 under salt and drought stress. The Crop Journal 6:181-190 DOI |
102 | Gupta B, Huang B (2014) Mechanism of salinity tolerance in plants: physiological, biochemical, and molecular characterization. International journal of genomics 2014 |
103 | Ahmad P, Hashem A, Abd-Allah EF, Alqarawi A, John R, Egamberdieva D, Gucel S (2015) Role of Trichoderma harzianum in mitigating NaCl stress in Indian mustard (Brassica juncea L) through antioxidative defense system. Frontiers in plant science 6 |
104 | Hallmann J, Sikora RA (2011) Endophytic Fungi, p. 227-258. In K. Davies and Y. Spiegel (ed.), Biological Control of Plant-Parasitic Nematodes:: Building Coherence between Microbial Ecology and Molecular Mechanisms. Springer Netherlands, Dordrecht |
105 | Gururani MA, Mohanta TK, Bae H (2015) Current understanding of the interplay between phytohormones and photosynthesis under environmental stress. International journal of molecular sciences 16:19055-19085 DOI |
106 | Alsaggaf MS, El-Baz AF, Badawy SE, Moussa SH (2020) Anticancer and antibacterial activity of cadmium sulfide nanoparticles by Aspergillus niger. Advances in Polymer Technology 4909054:1-13 |