Search Results - "Campbell, Zachary C."

Engineering plants for tomorrow: how high-throughput phenotyping is contributing to the development of better crops by Campbell, Zachary C., Acosta-Gamboa, Lucia M., Nepal, Nirman, Lorence, Argelia

“…High-throughput plant phenotyping has been advancing at an accelerated rate as a response to the need to fill the gap between genomic information and the…”
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eIFiso4G Augments the Synthesis of Specific Plant Proteins Involved in Normal Chloroplast Function by Lellis, Andrew D, Patrick, Ryan M, Mayberry, Laura K, Lorence, Argelia, Campbell, Zachary C, Roose, Johnna L, Frankel, Laurie K, Bricker, Terry M, Hellmann, Hanjo A, Mayberry, Roderick W, Zavala, Ana Solis, Choy, Grace S, Wylie, Dennis C, Abdul-Moheeth, Mustafa, Masood, Adeeb, Prater, Amy G, Van Hoorn, Hailey E, Cole, Nicola A, Browning, Karen S

“…The plant-specific translation initiation complex eIFiso4F is encoded by three genes in Arabidopsis ( )-genes encoding the cap binding protein eIFiso4E ( ) and…”
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Field‐based infrastructure and cyber–physical system for the study of high night air temperature stress in irrigated rice by Quiñones, Cherryl, Adviento‐Borbe, Maria Arlene, Larazo, Wenceslao, Harris, Rodney Shea, Mendez, Kharla, Cunningham, Shannon S., Campbell, Zachary C., Medina‐Jimenez, Karina, Hein, Nathan T., Wagner, Dan, Ottis, Brian, Walia, Harkamal, Lorence, Argelia

“…High night air temperature (HNT) stress negatively impacts both rice (Oryza sativa L) yield and grain quality and has been extensively investigated because of…”
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Characterization of the response to abiotic stresses of high ascorbate Arabidopsis lines using phenomic approaches by Acosta-Gamboa, Lucia M., Suxing, Liu, Jarrod W, Creameans, Zachary C, Campbell, Raquel, Torres, Jessica P, Yactayo-Chang, Argelia, Lorence

“…L-Ascorbic acid (AsA, vitamin C) is a key antioxidant and enzyme cofactor in plants. Ascorbate controls cell division, affects cell expansion, and plays an…”
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eIFiso4G Augments the Synthesis of Specific Plant Proteins Involved in Normal Chloroplast Function1[OPEN] by Lellis, Andrew D., Patrick, Ryan M., Mayberry, Laura K., Lorence, Argelia, Campbell, Zachary C., Roose, Johnna L., Frankel, Laurie K., Bricker, Terry M., Hellmann, Hanjo A., Mayberry, Roderick W., Zavala, Ana Solis, Choy, Grace S., Wylie, Dennis C., Abdul-Moheeth, Mustafa, Masood, Adeeb, Prater, Amy G., Van Hoorn, Hailey E., Cole, Nicola A., Browning, Karen S.

“…The absence of eIFiso4G decreases the levels of some proteins, whereas overexpression of eIFiso4G1 restores synthesis of the decreased proteins, normal…”
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eIFiso4G Augments the Synthesis of Specific Plant Proteins Involved in Normal Chloroplast Function1[OPEN] by Lellis, Andrew D, Patrick, Ryan M, Mayberry, Laura K, Lorence, Argelia, Campbell, Zachary C, Roose, Johnna L, Frankel, Laurie K, Bricker, Terry M, Hellmann, Hanjo A, Mayberry, Roderick W, Zavala, Ana Solis, Choy, Grace S, Wylie, Dennis C, Abdul-Moheeth, Mustafa, Masood, Adeeb, Prater, Amy G, Van Hoorn, Hailey E, Cole, Nicola A, Browning, Karen S

“…The plant-specific translation initiation complex eIFiso4F is encoded by three genes in Arabidopsis (Arabidopsis thaliana)-genes encoding the cap binding…”
Get full text