FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4360600182> ?p ?o ?g. }

• W4360600182 abstract "Abstract Poly (acrylic) acid coated Mn3O4 nanoparticles (PAA@Mn 3 O 4 nanoparticles (PMO, 11.02 nm, −28.93 mV)) are synthesized to investigate whether they can help to improve maize drought tolerance and the relevant mechanisms behind this. In planta experimental results show that under drought (15% PEG 6000, polyethylene glycol, mimicking drought stress, 96 h), compared with the control plants, 500 mg L −1 PMO (root application, 96 h) improves maize drought tolerance, showing an increase of root length (21.6%), shoot length (21.2%), fresh weight (7.8%) and total protein (67.2%) content. In addition, PMO significantly decreases the malondialdehyde (MDA) content by 74.7% in maize under drought, compared with the control group. Further, PMO treated maize root apex shows significantly increased mitotic index (MI, 35.5%), and decreased hydrogen peroxide (40.9%). Compared with the control under drought (15% PEG, 96 h), thr root apex of maize plants treated with PMO (500 mg L −1 , root application, 96 h) have significantly lower level of H 2 O 2 . Overall, the results show that PMO can alleviate drought‐inhibited cell mitosis activities via maintaining ROS (reactive oxygen species) homeostasis. In this study, it is not only shown that PMO can be a good nano‐regulator candidate to improve maize drought tolerance, but also that PMO has potential to modulate plant cell mitosis activities." @default.
• W4360600182 created "2023-03-24" @default.
• W4360600182 creator A5012440356 @default.
• W4360600182 creator A5019056615 @default.
• W4360600182 creator A5041446903 @default.
• W4360600182 creator A5048003366 @default.
• W4360600182 creator A5055052043 @default.
• W4360600182 creator A5062684122 @default.
• W4360600182 creator A5069560545 @default.
• W4360600182 creator A5069853812 @default.
• W4360600182 creator A5088900152 @default.
• W4360600182 date "2023-03-22" @default.
• W4360600182 modified "2023-10-17" @default.
• W4360600182 title "Mn₃O₄ Nanoparticles Alleviate ROS‐Inhibited Root Apex Mitosis Activities to Improve Maize Drought Tolerance" @default.
• W4360600182 cites W1976652877 @default.
• W4360600182 cites W1987807152 @default.
• W4360600182 cites W1992162879 @default.
• W4360600182 cites W2004562785 @default.
• W4360600182 cites W2039101929 @default.
• W4360600182 cites W2041573043 @default.
• W4360600182 cites W2042833789 @default.
• W4360600182 cites W2042934934 @default.
• W4360600182 cites W2050102962 @default.
• W4360600182 cites W2051452929 @default.
• W4360600182 cites W2053847207 @default.
• W4360600182 cites W2057302277 @default.
• W4360600182 cites W2066020399 @default.
• W4360600182 cites W2083516894 @default.
• W4360600182 cites W2091158649 @default.
• W4360600182 cites W2110393579 @default.
• W4360600182 cites W2125863862 @default.
• W4360600182 cites W2126630551 @default.
• W4360600182 cites W2139328007 @default.
• W4360600182 cites W2148885812 @default.
• W4360600182 cites W2152294605 @default.
• W4360600182 cites W2158303280 @default.
• W4360600182 cites W2170913114 @default.
• W4360600182 cites W2515835990 @default.
• W4360600182 cites W2554148654 @default.
• W4360600182 cites W2602331927 @default.
• W4360600182 cites W2734984037 @default.
• W4360600182 cites W2765154889 @default.
• W4360600182 cites W2779707944 @default.
• W4360600182 cites W2786474781 @default.
• W4360600182 cites W2787678085 @default.
• W4360600182 cites W2800071566 @default.
• W4360600182 cites W2803906280 @default.
• W4360600182 cites W2806508315 @default.
• W4360600182 cites W2951007135 @default.
• W4360600182 cites W2991121777 @default.
• W4360600182 cites W2994064188 @default.
• W4360600182 cites W3016702168 @default.
• W4360600182 cites W3017312206 @default.
• W4360600182 cites W3036907105 @default.
• W4360600182 cites W3037883469 @default.
• W4360600182 cites W3121252488 @default.
• W4360600182 cites W3127354639 @default.
• W4360600182 cites W3129914359 @default.
• W4360600182 cites W3130935777 @default.
• W4360600182 cites W3138767807 @default.
• W4360600182 cites W3147403185 @default.
• W4360600182 cites W3156279678 @default.
• W4360600182 cites W3159901781 @default.
• W4360600182 cites W3160056203 @default.
• W4360600182 cites W3165055250 @default.
• W4360600182 cites W3185256622 @default.
• W4360600182 cites W3201290176 @default.
• W4360600182 cites W4200440670 @default.
• W4360600182 cites W4205933047 @default.
• W4360600182 cites W4220991597 @default.
• W4360600182 cites W4235123403 @default.
• W4360600182 cites W4237601638 @default.
• W4360600182 cites W4248712489 @default.
• W4360600182 cites W4256480471 @default.
• W4360600182 cites W4280504305 @default.
• W4360600182 cites W4289731711 @default.
• W4360600182 cites W4290999122 @default.
• W4360600182 cites W4308393597 @default.
• W4360600182 doi "https://doi.org/10.1002/adbi.202200317" @default.
• W4360600182 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36949542" @default.
• W4360600182 hasPublicationYear "2023" @default.
• W4360600182 type Work @default.
• W4360600182 citedByCount "2" @default.
• W4360600182 countsByYear W43606001822023 @default.
• W4360600182 crossrefType "journal-article" @default.
• W4360600182 hasAuthorship W4360600182A5012440356 @default.
• W4360600182 hasAuthorship W4360600182A5019056615 @default.
• W4360600182 hasAuthorship W4360600182A5041446903 @default.
• W4360600182 hasAuthorship W4360600182A5048003366 @default.
• W4360600182 hasAuthorship W4360600182A5055052043 @default.
• W4360600182 hasAuthorship W4360600182A5062684122 @default.
• W4360600182 hasAuthorship W4360600182A5069560545 @default.
• W4360600182 hasAuthorship W4360600182A5069853812 @default.
• W4360600182 hasAuthorship W4360600182A5088900152 @default.
• W4360600182 hasConcept C10138342 @default.
• W4360600182 hasConcept C144027150 @default.
• W4360600182 hasConcept C161221295 @default.
• W4360600182 hasConcept C162324750 @default.
• W4360600182 hasConcept C185592680 @default.
• W4360600182 hasConcept C189797535 @default.

• next