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For: Iqbal N, Umar S, Khan NA, Corpas FJ. Nitric Oxide and Hydrogen Sulfide Coordinately Reduce Glucose Sensitivity and Decrease Oxidative Stress via Ascorbate-Glutathione Cycle in Heat-Stressed Wheat (Triticum aestivum L.) Plants. Antioxidants (Basel) 2021;10:108. [PMID: 33466569 DOI: 10.3390/antiox10010108] [Cited by in Crossref: 30] [Cited by in F6Publishing: 25] [Article Influence: 30.0] [Reference Citation Analysis]
Number Citing Articles
1 Rasheed F, Mir IR, Sehar Z, Fatma M, Gautam H, Khan S, Anjum NA, Masood A, Sofo A, Khan NA. Nitric Oxide and Salicylic Acid Regulate Glutathione and Ethylene Production to Enhance Heat Stress Acclimation in Wheat Involving Sulfur Assimilation. Plants 2022;11:3131. [DOI: 10.3390/plants11223131] [Reference Citation Analysis]
2 Sun Y, Wang J, Xiang R, Li Z. Key role of reactive oxygen species-scavenging system in nitric oxide and hydrogen sulfide crosstalk-evoked thermotolerance in maize seedlings. Front Plant Sci 2022;13. [DOI: 10.3389/fpls.2022.967968] [Reference Citation Analysis]
3 Rehaman A, Fatma M, Jan AT, Shah AA, Asgher M, Khan NA. Co-Application of Nitric Oxide and Vermicompost Improves Photosynthetic Functions, Antioxidants, and Nitrogen Metabolism in Maize (Zea mays L.) Grown Under Drought Stress. J Plant Growth Regul 2022. [DOI: 10.1007/s00344-022-10854-4] [Reference Citation Analysis]
4 Kumar D, Ohri P. Say “NO” to plant stresses: Unravelling the role of nitric oxide under abiotic and biotic stress. Nitric Oxide 2022. [DOI: 10.1016/j.niox.2022.11.004] [Reference Citation Analysis]
5 Mondéjar-lópez M, López-jimenez AJ, Ahrazem O, Gómez-gómez L, Niza E. Chitosan coated - biogenic silver nanoparticles from wheat residues as green antifungal and nanoprimig in wheat seeds. International Journal of Biological Macromolecules 2022. [DOI: 10.1016/j.ijbiomac.2022.11.159] [Reference Citation Analysis]
6 Huang LZ, Zhou M, Ding YF, Zhu C. Gene Networks Involved in Plant Heat Stress Response and Tolerance. Int J Mol Sci 2022;23. [PMID: 36233272 DOI: 10.3390/ijms231911970] [Reference Citation Analysis]
7 Kolupaev YE, Karpets YV, Shkliarevskyi MA, Yastreb TO, Plohovska SH, Yemets АI, Blume YB. Gasotransmitters in Plants: Mechanisms of Participation in Adaptive Responses. TOASJ 2022;16. [DOI: 10.2174/18743315-v16-e2207050] [Cited by in F6Publishing: 1] [Reference Citation Analysis]
8 Kaya C, Ugurlar F, Ashraf M, El-Sheikh MA, Bajguz A, Ahmad P. The participation of nitric oxide in hydrogen sulphide-mediated chromium tolerance in pepper (Capsicum annuum L) plants by modulating subcellular distribution of chromium and the ascorbate-glutathione cycle. Environ Pollut 2022;:120229. [PMID: 36152705 DOI: 10.1016/j.envpol.2022.120229] [Cited by in F6Publishing: 1] [Reference Citation Analysis]
9 Zlatić G, Arapović A, Martinović I, Martinović Bevanda A, Bošković P, Prkić A, Paut A, Vukušić T. Antioxidant Capacity of Herzegovinian Wildflowers Evaluated by UV–VIS and Cyclic Voltammetry Analysis. Molecules 2022;27:5466. [DOI: 10.3390/molecules27175466] [Reference Citation Analysis]
10 Chauhan P, Mir RA, Khah MA. Ascorbate–Glutathione Cycle. Nitric Oxide in Plants 2022. [DOI: 10.1002/9781119800156.ch8] [Reference Citation Analysis]
11 Hassan MU, Ghareeb RY, Nawaz M, Mahmood A, Shah AN, Abdel-megeed A, Abdelsalam NR, Hashem M, Alamri S, Thabit MA, Qari SH. Melatonin: A Vital Pro-Tectant for Crops against Heat Stress: Mechanisms and Prospects. Agronomy 2022;12:1116. [DOI: 10.3390/agronomy12051116] [Cited by in Crossref: 4] [Cited by in F6Publishing: 4] [Article Influence: 4.0] [Reference Citation Analysis]
12 Frapporti G, Colombo E, Ahmed H, Assoni G, Polito L, Randazzo P, Arosio D, Seneci P, Piccoli G. Squalene-Based Nano-Assemblies Improve the Pro-Autophagic Activity of Trehalose. Pharmaceutics 2022;14:862. [PMID: 35456696 DOI: 10.3390/pharmaceutics14040862] [Cited by in Crossref: 1] [Cited by in F6Publishing: 1] [Article Influence: 1.0] [Reference Citation Analysis]
13 Mohi-Ud-Din M, Rohman MM, Alam MA, Hasanuzzaman M, Islam T. Wheat variety carrying 2NvS chromosomal segment provides yield advantage through lowering terminal heat-induced oxidative stress. Protoplasma 2022. [PMID: 35397668 DOI: 10.1007/s00709-022-01759-w] [Reference Citation Analysis]
14 de Bont L, Mu X, Wei B, Han Y. Abiotic stress-triggered oxidative challenges: Where does H2S act? J Genet Genomics 2022:S1673-8527(22)00071-6. [PMID: 35276389 DOI: 10.1016/j.jgg.2022.02.019] [Cited by in Crossref: 5] [Cited by in F6Publishing: 5] [Article Influence: 5.0] [Reference Citation Analysis]
15 Wang L, Mu X, Chen X, Han Y. Hydrogen sulfide attenuates intracellular oxidative stress via repressing glycolate oxidase activities in Arabidopsis thaliana. BMC Plant Biol 2022;22. [DOI: 10.1186/s12870-022-03490-3] [Cited by in Crossref: 3] [Cited by in F6Publishing: 3] [Article Influence: 3.0] [Reference Citation Analysis]
16 Mishra S, Chowdhary AA, Bhau BS, Srivastava V. Hydrogen sulphide-mediated alleviation and its interplay with other signalling molecules during temperature stress. Plant Biol (Stuttg) 2022. [PMID: 35238126 DOI: 10.1111/plb.13406] [Cited by in Crossref: 2] [Cited by in F6Publishing: 3] [Article Influence: 2.0] [Reference Citation Analysis]
17 Iqbal N, Sehar Z, Fatma M, Umar S, Sofo A, Khan NA. Nitric Oxide and Abscisic Acid Mediate Heat Stress Tolerance through Regulation of Osmolytes and Antioxidants to Protect Photosynthesis and Growth in Wheat Plants. Antioxidants 2022;11:372. [DOI: 10.3390/antiox11020372] [Cited by in Crossref: 12] [Cited by in F6Publishing: 12] [Article Influence: 12.0] [Reference Citation Analysis]
18 Shivani, Grewal SK, Gill RK, Virk HK, Bhardwaj RD. Methylglyoxal detoxification pathway - Explored first time for imazethapyr tolerance in lentil (Lens culinaris L.). Plant Physiology and Biochemistry 2022. [DOI: 10.1016/j.plaphy.2022.02.007] [Cited by in Crossref: 1] [Cited by in F6Publishing: 1] [Article Influence: 1.0] [Reference Citation Analysis]
19 Gautam H, Fatma M, Sehar Z, Iqbal N, Albaqami M, Khan NA. Exogenously-Sourced Ethylene Positively Modulates Photosynthesis, Carbohydrate Metabolism, and Antioxidant Defense to Enhance Heat Tolerance in Rice. Int J Mol Sci 2022;23:1031. [PMID: 35162955 DOI: 10.3390/ijms23031031] [Cited by in Crossref: 16] [Cited by in F6Publishing: 15] [Article Influence: 16.0] [Reference Citation Analysis]
20 Iqbal N, Fatma M, Gautam H, Sehar Z, Rasheed F, Khan MIR, Sofo A, Khan NA. Salicylic Acid Increases Photosynthesis of Drought Grown Mustard Plants Effectively with Sufficient-N via Regulation of Ethylene, Abscisic Acid, and Nitrogen-Use Efficiency. J Plant Growth Regul. [DOI: 10.1007/s00344-021-10565-2] [Cited by in Crossref: 7] [Cited by in F6Publishing: 2] [Article Influence: 7.0] [Reference Citation Analysis]
21 Raza A, Tabassum J, Mubarik MS, Anwar S, Zahra N, Sharif Y, Hafeez MB, Zhang C, Corpas FJ, Chen H. Hydrogen sulfide: an emerging component against abiotic stress in plants. Plant Biol (Stuttg) 2021. [PMID: 34870354 DOI: 10.1111/plb.13368] [Cited by in Crossref: 13] [Cited by in F6Publishing: 14] [Article Influence: 13.0] [Reference Citation Analysis]
22 Mustafa T, Sattar A, Sher A, Ul-Allah S, Ijaz M, Irfan M, Butt M, Cheema M. Exogenous application of silicon improves the performance of wheat under terminal heat stress by triggering physio-biochemical mechanisms. Sci Rep 2021;11:23170. [PMID: 34848766 DOI: 10.1038/s41598-021-02594-4] [Cited by in Crossref: 6] [Cited by in F6Publishing: 6] [Article Influence: 6.0] [Reference Citation Analysis]
23 Chen S, Chang Y, Ding Y. Roles of H2S and NO in regulating the antioxidant system of Vibrio alginolyticus under norfloxacin stress. PeerJ 2021;9:e12255. [PMID: 34707937 DOI: 10.7717/peerj.12255] [Reference Citation Analysis]
24 Corpas FJ, González-Gordo S, Muñoz-Vargas MA, Rodríguez-Ruiz M, Palma JM. The Modus Operandi of Hydrogen Sulfide(H2S)-Dependent Protein Persulfidation in Higher Plants. Antioxidants (Basel) 2021;10:1686. [PMID: 34829557 DOI: 10.3390/antiox10111686] [Cited by in Crossref: 3] [Cited by in F6Publishing: 3] [Article Influence: 3.0] [Reference Citation Analysis]
25 Wang P, Fang H, Gao R, Liao W. Protein Persulfidation in Plants: Function and Mechanism. Antioxidants (Basel) 2021;10:1631. [PMID: 34679765 DOI: 10.3390/antiox10101631] [Cited by in Crossref: 1] [Cited by in F6Publishing: 2] [Article Influence: 1.0] [Reference Citation Analysis]
26 Rehaman A, Mishra AK, Ferdose A, Per TS, Hanief M, Jan AT, Asgher M. Melatonin in Plant Defense against Abiotic Stress. Forests 2021;12:1404. [DOI: 10.3390/f12101404] [Cited by in Crossref: 7] [Cited by in F6Publishing: 7] [Article Influence: 7.0] [Reference Citation Analysis]
27 Jahan B, Rasheed F, Sehar Z, Fatma M, Iqbal N, Masood A, Anjum NA, Khan NA. Coordinated Role of Nitric Oxide, Ethylene, Nitrogen, and Sulfur in Plant Salt Stress Tolerance. Stresses 2021;1:181-99. [DOI: 10.3390/stresses1030014] [Cited by in Crossref: 9] [Cited by in F6Publishing: 8] [Article Influence: 9.0] [Reference Citation Analysis]
28 Iqbal N, Fatma M, Gautam H, Umar S, Sofo A, D'ippolito I, Khan NA. The Crosstalk of Melatonin and Hydrogen Sulfide Determines Photosynthetic Performance by Regulation of Carbohydrate Metabolism in Wheat under Heat Stress. Plants (Basel) 2021;10:1778. [PMID: 34579310 DOI: 10.3390/plants10091778] [Cited by in Crossref: 26] [Cited by in F6Publishing: 28] [Article Influence: 26.0] [Reference Citation Analysis]
29 Sun Y, Ma C, Kang X, Zhang L, Wang J, Zheng S, Zhang T. Hydrogen sulfide and nitric oxide are involved in melatonin-induced salt tolerance in cucumber. Plant Physiol Biochem 2021;167:101-12. [PMID: 34340024 DOI: 10.1016/j.plaphy.2021.07.023] [Cited by in Crossref: 15] [Cited by in F6Publishing: 18] [Article Influence: 15.0] [Reference Citation Analysis]
30 Fatma M, Iqbal N, Sehar Z, Alyemeni MN, Kaushik P, Khan NA, Ahmad P. Methyl Jasmonate Protects the PS II System by Maintaining the Stability of Chloroplast D1 Protein and Accelerating Enzymatic Antioxidants in Heat-Stressed Wheat Plants. Antioxidants (Basel) 2021;10:1216. [PMID: 34439464 DOI: 10.3390/antiox10081216] [Cited by in Crossref: 14] [Cited by in F6Publishing: 15] [Article Influence: 14.0] [Reference Citation Analysis]
31 Siddiqui MH, Khan MN, Mukherjee S, Basahi RA, Alamri S, Al-Amri AA, Alsubaie QD, Ali HM, Al-Munqedhi BMA, Almohisen IAA. Exogenous melatonin-mediated regulation of K+ /Na+ transport, H+ -ATPase activity and enzymatic antioxidative defence operate through endogenous hydrogen sulphide signalling in NaCl-stressed tomato seedling roots. Plant Biol (Stuttg) 2021;23:797-805. [PMID: 34263973 DOI: 10.1111/plb.13296] [Cited by in Crossref: 10] [Cited by in F6Publishing: 12] [Article Influence: 10.0] [Reference Citation Analysis]
32 Siddiqui MH, Khan MN, Mukherjee S, Alamri S, Basahi RA, Al-Amri AA, Alsubaie QD, Al-Munqedhi BMA, Ali HM, Almohisen IAA. Hydrogen sulfide (H2S) and potassium (K+) synergistically induce drought stress tolerance through regulation of H+-ATPase activity, sugar metabolism, and antioxidative defense in tomato seedlings. Plant Cell Rep 2021;40:1543-64. [PMID: 34142217 DOI: 10.1007/s00299-021-02731-3] [Cited by in Crossref: 12] [Cited by in F6Publishing: 14] [Article Influence: 12.0] [Reference Citation Analysis]
33 Khan MN, Mukherjee S, Al-Huqail AA, Basahi RA, Ali HM, Al-Munqedhi BMA, Siddiqui MH, Kalaji HM. Exogenous Potassium (K+) Positively Regulates Na+/H+ Antiport System, Carbohydrate Metabolism, and Ascorbate-Glutathione Cycle in H2S-Dependent Manner in NaCl-Stressed Tomato Seedling Roots. Plants (Basel) 2021;10:948. [PMID: 34068675 DOI: 10.3390/plants10050948] [Cited by in Crossref: 8] [Cited by in F6Publishing: 9] [Article Influence: 8.0] [Reference Citation Analysis]
34 Mohi-Ud-Din M, Siddiqui MN, Rohman MM, Jagadish SVK, Ahmed JU, Hassan MM, Hossain A, Islam T. Physiological and Biochemical Dissection Reveals a Trade-off Between Antioxidant Capacity and Heat Tolerance in Bread Wheat (Triticum aestivum L.). Antioxidants (Basel) 2021;10:351. [PMID: 33652954 DOI: 10.3390/antiox10030351] [Cited by in Crossref: 8] [Cited by in F6Publishing: 9] [Article Influence: 8.0] [Reference Citation Analysis]