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.

Requested Article:

“Omics” of Maize Stress Response for Sustainable Food Production: Opportunities and Challenges
Fangping Gong, Le Yang, Fuju Tai, et al.
OMICS A Journal of Integrative Biology (2014) Vol. 18, Iss. 12, pp. 714-732
Open Access | Times Cited: 99

Showing 1-25 of 99 citing articles:

Copper Nanoparticle Application Enhances Plant Growth and Grain Yield in Maize Under Drought Stress Conditions
Dong Van Nguyen, Huong Mai Nguyen, Nga Thanh Le, et al.
Journal of Plant Growth Regulation (2021) Vol. 41, Iss. 1, pp. 364-375
Open Access | Times Cited: 185

Transcriptomic Profiling of the Maize (Zea mays L.) Leaf Response to Abiotic Stresses at the Seedling Stage
Pengcheng Li, Wei Cao, Huimin Fang, et al.
Frontiers in Plant Science (2017) Vol. 8
Open Access | Times Cited: 106

Profiling of drought-responsive microRNA and mRNA in tomato using high-throughput sequencing
Minmin Liu, Huiyang Yu, Gangjun Zhao, et al.
BMC Genomics (2017) Vol. 18, Iss. 1
Open Access | Times Cited: 105

Comparative Proteomic Analysis of Brassica napus in Response to Drought Stress
Jin Koh, Gang Chen, Mi‐Jeong Yoo, et al.
Journal of Proteome Research (2015) Vol. 14, Iss. 8, pp. 3068-3081
Closed Access | Times Cited: 94

Transcription factors involved in abiotic stress responses in Maize (Zea maysL.) and their roles in enhanced productivity in the post genomics era
Roy Njoroge Kimotho, Elamin Hafiz Baillo, Zhengbin Zhang
PeerJ (2019) Vol. 7, pp. e7211-e7211
Open Access | Times Cited: 91

Recent Advances for Drought Stress Tolerance in Maize (Zea mays L.): Present Status and Future Prospects
Seema Sheoran, Yashmeet Kaur, Sushil Kumar, et al.
Frontiers in Plant Science (2022) Vol. 13
Open Access | Times Cited: 66

A genome-wide association study identifies genes associated with cuticular wax metabolism in maize
Liping Xu, Jiaxin Hao, Mengfan Lv, et al.
PLANT PHYSIOLOGY (2024) Vol. 194, Iss. 4, pp. 2616-2630
Closed Access | Times Cited: 10

Systems Biology for Smart Crops and Agricultural Innovation: Filling the Gaps between Genotype and Phenotype for Complex Traits Linked with Robust Agricultural Productivity and Sustainability
Anil Kumar, Rajesh Kumar Pathak, Sanjay Mohan Gupta, et al.
OMICS A Journal of Integrative Biology (2015) Vol. 19, Iss. 10, pp. 581-601
Open Access | Times Cited: 90

Advances in crop proteomics: PTMs of proteins under abiotic stress
Xiaolin Wu, Fangping Gong, Di Cao, et al.
PROTEOMICS (2015) Vol. 16, Iss. 5, pp. 847-865
Closed Access | Times Cited: 78

Making better maize plants for sustainable grain production in a changing climate
Fangping Gong, Xiaolin Wu, Huiyong Zhang, et al.
Frontiers in Plant Science (2015) Vol. 6
Open Access | Times Cited: 77

Stress-induced and epigenetic-mediated maize transcriptome regulation study by means of transcriptome reannotation and differential expression analysis
Cristian Forestan, Riccardo Aiese Cigliano, Silvia Farinati, et al.
Scientific Reports (2016) Vol. 6, Iss. 1
Open Access | Times Cited: 66

Copper nanoparticle application enhances plant growth and grain yield in maize under drought stress conditions
Dong Van Nguyen, Huong Mai Nguyen, Nga Thanh Le, et al.
bioRxiv (Cold Spring Harbor Laboratory) (2020)
Open Access | Times Cited: 64

Maize transposable elements contribute to long non-coding RNAs that are regulatory hubs for abiotic stress response
Yuanda Lv, Fengqin Hu, Yongfeng Zhou, et al.
BMC Genomics (2019) Vol. 20, Iss. 1
Open Access | Times Cited: 59

Global Transcriptome and Weighted Gene Co-expression Network Analyses of Growth-Stage-Specific Drought Stress Responses in Maize
Songtao Liu, Tinashe Zenda, Anyi Dong, et al.
Frontiers in Genetics (2021) Vol. 12
Open Access | Times Cited: 40

Maize Production under Drought Stress: Nutrient Supply, Yield Prediction
Adrienn Széles, Éva Horváth, Károly Simon, et al.
Plants (2023) Vol. 12, Iss. 18, pp. 3301-3301
Open Access | Times Cited: 19

Beneficial Plant–Microbe Interactions and Stress Tolerance in Maize
Saroj Burlakoti, Ananta Raj Devkota, Shital Poudyal, et al.
Applied Microbiology (2024) Vol. 4, Iss. 3, pp. 1000-1015
Open Access | Times Cited: 6

Functional annotation and meta-analysis of maize transcriptomes reveal genes involved in biotic and abiotic stress
Rita K. Hayford, Olivia C. Haley, Ethalinda K. S. Cannon, et al.
BMC Genomics (2024) Vol. 25, Iss. 1
Open Access | Times Cited: 5

Proline Promotes Drought Tolerance in Maize
Pirzada Khan, Ashraf M. M. Abdelbacki, Mohammed Albaqami, et al.
Biology (2025) Vol. 14, Iss. 1, pp. 41-41
Open Access

Exogenous 24-Epibrassinolide Improves Low-Temperature Tolerance of Maize Seedlings by Influencing Sugar Signaling and Metabolism
Siqi Sun, Xiaoqiang Zhao, Zhenzhen Shi, et al.
International Journal of Molecular Sciences (2025) Vol. 26, Iss. 2, pp. 585-585
Open Access

Harnessing Next Generation Sequencing in Climate Change: RNA-Seq Analysis of Heat Stress-Responsive Genes in Wheat (Triticum aestivum L.)
Ranjeet Ranjan Kumar, Suneha Goswami, Sushil K. Sharma, et al.
OMICS A Journal of Integrative Biology (2015) Vol. 19, Iss. 10, pp. 632-647
Open Access | Times Cited: 62

Proteomic analysis of crop plants under abiotic stress conditions: where to focus our research?
Fangping Gong, Xiuli Hu, Wei Wang
Frontiers in Plant Science (2015) Vol. 6
Open Access | Times Cited: 52

Differential Morphophysiological, Biochemical, and Molecular Responses of Maize Hybrids to Salinity and Alkalinity Stresses
Arooj Fatima, Saddam Hussain, Sadam Hussain, et al.
Agronomy (2021) Vol. 11, Iss. 6, pp. 1150-1150
Open Access | Times Cited: 38

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