OpenAlex Citation Counts

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OpenAlex is a bibliographic catalogue of scientific papers, authors and institutions accessible in open access mode, named after the Library of Alexandria. It's citation coverage is excellent and I hope you will find utility in this listing of citing articles!

If you click the article title, you'll navigate to the article, as listed in CrossRef. If you click the Open Access links, you'll navigate to the "best Open Access location". Clicking the citation count will open this listing for that article. Lastly at the bottom of the page, you'll find basic pagination options.

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Showing 1-25 of 131 citing articles:

Signaling mechanisms in abscisic acid‐mediated stomatal closure
Po‐Kai Hsu, Guillaume Dubeaux, Yohei Takahashi, et al.
The Plant Journal (2020) Vol. 105, Iss. 2, pp. 307-321
Open Access | Times Cited: 316

1-Aminocyclopropane-1-Carboxylic Acid Oxidase (ACO): The Enzyme That Makes the Plant Hormone Ethylene
Maarten Houben, Bram Van de Poel
Frontiers in Plant Science (2019) Vol. 10
Open Access | Times Cited: 289

The regulation of ethylene biosynthesis: a complex multilevel control circuitry
Jolien Pattyn, John Vaughan‐Hirsch, Bram Van de Poel
New Phytologist (2020) Vol. 229, Iss. 2, pp. 770-782
Open Access | Times Cited: 243

Nitric oxide and hydrogen sulfide in plants: which comes first?
Francisco J. Corpas, Salvador González‐Gordo, Amanda Cañas, et al.
Journal of Experimental Botany (2019) Vol. 70, Iss. 17, pp. 4391-4404
Closed Access | Times Cited: 232

Hydrogen Sulfide Positively Regulates Abscisic Acid Signaling through Persulfidation of SnRK2.6 in Guard Cells
Sisi Chen, Honglei Jia, Xiaofeng Wang, et al.
Molecular Plant (2020) Vol. 13, Iss. 5, pp. 732-744
Open Access | Times Cited: 202

H2S signaling in plants and applications in agriculture
Francisco J. Corpas, José M. Palma
Journal of Advanced Research (2020) Vol. 24, pp. 131-137
Open Access | Times Cited: 173

Hydrogen sulfide, a signaling molecule in plant stress responses
Jing Zhang, Mingjian Zhou, Heng Zhou, et al.
Journal of Integrative Plant Biology (2020) Vol. 63, Iss. 1, pp. 146-160
Open Access | Times Cited: 157

Nitric oxide and hydrogen sulfide: an indispensable combination for plant functioning
Vipul Mishra, Pooja Singh, Durgesh Kumar Tripathi, et al.
Trends in Plant Science (2021) Vol. 26, Iss. 12, pp. 1270-1285
Closed Access | Times Cited: 124

Hydrogen sulfide (H2S) signaling in plant development and stress responses
Liu Hai, Jicheng Wang, Jianhao Liu, et al.
aBIOTECH (2021) Vol. 2, Iss. 1, pp. 32-63
Open Access | Times Cited: 122

Tomato salt tolerance mechanisms and their potential applications for fighting salinity: A review
Meng Guo, Xinsheng Wang, Hui-Dan Guo, et al.
Frontiers in Plant Science (2022) Vol. 13
Open Access | Times Cited: 74

Hydrogen sulfide signaling in plant response to temperature stress
Zhong‐Guang Li, Jue-Rui Fang, Su-Jie Bai
Frontiers in Plant Science (2024) Vol. 15
Open Access | Times Cited: 22

Plant hormone ethylene: A leading edge in conferring drought stress tolerance
Faroza Nazir, Péter Poór, Ravi Gupta, et al.
Physiologia Plantarum (2024) Vol. 176, Iss. 1
Closed Access | Times Cited: 19

Signaling by hydrogen sulfide and cyanide through post-translational modification
Cecilia Gotor, Irene García, Ángeles Aroca, et al.
Journal of Experimental Botany (2019) Vol. 70, Iss. 16, pp. 4251-4265
Open Access | Times Cited: 135

Hydrogen Sulfide: From a Toxic Molecule to a Key Molecule of Cell Life
Ángeles Aroca, Cecilia Gotor, Diane C. Bassham, et al.
Antioxidants (2020) Vol. 9, Iss. 7, pp. 621-621
Open Access | Times Cited: 119

Nitric oxide and hydrogen sulfide crosstalk during heavy metal stress in plants
S. M. Shivaraj, Sanskriti Vats, Javaid Akhter Bhat, et al.
Physiologia Plantarum (2019) Vol. 168, Iss. 2, pp. 437-455
Closed Access | Times Cited: 110

Bioformulation of biochar as a potential inoculant carrier for sustainable agriculture
Aaronn Avit Ajeng, Rosazlin Abdullah, Tau Chuan Ling, et al.
Environmental Technology & Innovation (2020) Vol. 20, pp. 101168-101168
Closed Access | Times Cited: 110

Hydrogen sulfide: Roles in plant abiotic stress response and crosstalk with other signals
Dengjing Huang, Jianqiang Huo, Weibiao Liao
Plant Science (2020) Vol. 302, pp. 110733-110733
Closed Access | Times Cited: 106

Hydrogen sulfide regulates the activity of antioxidant enzymes through persulfidation and improves the resistance of tomato seedling to Copper Oxide nanoparticles (CuO NPs)-induced oxidative stress
Jisheng Li, Cong Shi, Xiaofeng Wang, et al.
Plant Physiology and Biochemistry (2020) Vol. 156, pp. 257-266
Closed Access | Times Cited: 89

WRKY13 Enhances Cadmium Tolerance by Promoting D-CYSTEINE DESULFHYDRASE and Hydrogen Sulfide Production
Qing Zhang, Wei Cai, Tong-Tong Ji, et al.
PLANT PHYSIOLOGY (2020) Vol. 183, Iss. 1, pp. 345-357
Open Access | Times Cited: 84

Crosstalk between Hydrogen Sulfide and Other Signal Molecules Regulates Plant Growth and Development
Lijuan Xuan, Jian Li, Xinyu Wang, et al.
International Journal of Molecular Sciences (2020) Vol. 21, Iss. 13, pp. 4593-4593
Open Access | Times Cited: 83

Hydrogen sulfide: a multi-tasking signal molecule in the regulation of oxidative stress responses
Tao Chen, Mimi Tian, Yi Han
Journal of Experimental Botany (2020) Vol. 71, Iss. 10, pp. 2862-2869
Closed Access | Times Cited: 76

Hydrogen sulfide signaling in plant adaptations to adverse conditions: molecular mechanisms
Ángeles Aroca, Jing Zhang, Yanjie Xie, et al.
Journal of Experimental Botany (2021) Vol. 72, Iss. 16, pp. 5893-5904
Open Access | Times Cited: 74

Exogenous application of hydrogen sulfide and γ-aminobutyric acid alleviates chilling injury and preserves quality of persimmon fruit (Diospyros kaki, cv. Karaj) during cold storage
Zohreh Niazi, Farhang Razavi, Orang Khademi, et al.
Scientia Horticulturae (2021) Vol. 285, pp. 110198-110198
Closed Access | Times Cited: 60

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