Positional cloning of <i>qNN1</i> on chromosome 16. by Xinxin Li (281237)

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<i>GmNN1/FT2a</i> expression analysis. by Xinxin Li (281237)

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Shoot-to-root translocation of GmNN1/FT2a regulates soybean nodulation. by Xinxin Li (281237)

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Functions of <i>GmNN1/FT2a</i> in nitrogen nutrition and nodulation. by Xinxin Li (281237)

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Plant growth, nodulation, and N content as affected by manipulating of GmNN1/FT2a. by Xinxin Li (281237)

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Expression of <i>GmNN1/FT2a</i> in various tissues of soybean plants. by Xinxin Li (281237)

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GmNN1/FT2a interacted with GmNYFA-C in the BiFC assay. by Xinxin Li (281237)

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Gene specific primers used for <i>GmNN1/FT2a</i> fine mapping. by Xinxin Li (281237)

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Phenotype and molecular identification of <i>GmNN1/FT2a</i> in stable transgenic soybean plants. by Xinxin Li (281237)

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The GmNN1/FT2a-GmNFYA-C-GmENOD40 module regulates soybean nodulation. by Xinxin Li (281237)

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M^pro confers a significant reduction in growth in yeast caused by decreases in a variety of cellular proteins. by Jin Ou (16914305)

A proposed working model of how the GmNN1/FT2a-GmNYFA-C-GmENOD40 module regulates nodulation in soybean. by Xinxin Li (281237)

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NN analysis to assign the importance of variables. by Sulmaz Ghahramani (3387635)

Treatment with ICs causes a significant decrease in podocyte proliferation. by George Haddad (470789)

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”

Hydrate-Based Gas Storage Made Greener: Methane Hydrate Formation Enhancement with a Low-Toxicity Promoter by Katipot Inkong (7979942)

“…Additionally, the effect of pressure variations (from 8 to 4 MPa at 288.2 K) was analyzed, revealing that a lower pressure decreases both the gas uptake and formation kinetics due to a reduced driving force. …”