SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3046391380> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W3046391380 endingPage "242" @default.
W3046391380 startingPage "231" @default.
W3046391380 abstract "Manganese (Mn) is an essential micronutrient for plant growth. However, excess manganese is toxic and inhibits crop production. Although it is widely known that physiological and molecular mechanisms underlie plant responses to Mn toxicity, few studies have been conducted to compare Mn tolerance capabilities between young and old leaves in plants; thus, the mechanisms underlying Mn tolerance in different plant tissues or organs are not fully understood. In this study, the dose responses of soybean to Mn availability were investigated. Genome-wide transcriptomic analysis was subsequently conducted to identify the differentially expressed genes (DEGs) in both young and old leaves of soybean in responses to Mn toxicity. Our results showed that excess Mn severely inhibited soybean growth and increased both Mn accumulation in and brown spots on soybean leaves, especially for the old leaves, strongly suggesting that more Mn was allocated to old leaves in soybean. Transcriptomic profiling revealed that totals of 4410 and 2258 DEGs were separately identified in young leaves and old leaves. Furthermore, only 944 DEGs were found to be commonly regulated in both young and old leaves of soybean, strongly suggesting distinct responses present in soybean young and old leaves in responses to Mn toxicity." @default.
W3046391380 created "2020-08-07" @default.
W3046391380 creator A5027181514 @default.
W3046391380 creator A5066911268 @default.
W3046391380 creator A5075534293 @default.
W3046391380 creator A5082638139 @default.
W3046391380 creator A5087855114 @default.
W3046391380 creator A5088062939 @default.
W3046391380 creator A5088100323 @default.
W3046391380 date "2020-10-01" @default.
W3046391380 modified "2023-09-29" @default.
W3046391380 title "Complex gene regulation between young and old soybean leaves in responses to manganese toxicity" @default.
W3046391380 cites W1589893269 @default.
W3046391380 cites W1907426129 @default.
W3046391380 cites W1973863982 @default.
W3046391380 cites W1975879167 @default.
W3046391380 cites W1979515633 @default.
W3046391380 cites W1981396352 @default.
W3046391380 cites W1981519049 @default.
W3046391380 cites W1985590376 @default.
W3046391380 cites W1986662234 @default.
W3046391380 cites W1991738966 @default.
W3046391380 cites W1993914470 @default.
W3046391380 cites W1996951052 @default.
W3046391380 cites W1999670226 @default.
W3046391380 cites W2001964882 @default.
W3046391380 cites W2010888368 @default.
W3046391380 cites W2011353054 @default.
W3046391380 cites W2012716747 @default.
W3046391380 cites W2014278119 @default.
W3046391380 cites W2014404984 @default.
W3046391380 cites W2026761815 @default.
W3046391380 cites W2034345513 @default.
W3046391380 cites W2036763982 @default.
W3046391380 cites W2044256551 @default.
W3046391380 cites W2045869918 @default.
W3046391380 cites W2056308064 @default.
W3046391380 cites W2066673580 @default.
W3046391380 cites W2067073603 @default.
W3046391380 cites W2067416786 @default.
W3046391380 cites W2068269498 @default.
W3046391380 cites W2077826408 @default.
W3046391380 cites W2079777261 @default.
W3046391380 cites W2085445458 @default.
W3046391380 cites W2086296898 @default.
W3046391380 cites W2089067550 @default.
W3046391380 cites W2099839553 @default.
W3046391380 cites W2100305481 @default.
W3046391380 cites W2102368215 @default.
W3046391380 cites W2107220572 @default.
W3046391380 cites W2108600573 @default.
W3046391380 cites W2114186043 @default.
W3046391380 cites W2116784531 @default.
W3046391380 cites W2117901119 @default.
W3046391380 cites W2119034410 @default.
W3046391380 cites W2119653189 @default.
W3046391380 cites W2120181169 @default.
W3046391380 cites W2120332316 @default.
W3046391380 cites W2125788684 @default.
W3046391380 cites W2126423607 @default.
W3046391380 cites W2129740389 @default.
W3046391380 cites W2133334780 @default.
W3046391380 cites W2140415421 @default.
W3046391380 cites W2146355571 @default.
W3046391380 cites W2154026236 @default.
W3046391380 cites W2157037306 @default.
W3046391380 cites W2158217645 @default.
W3046391380 cites W2159827101 @default.
W3046391380 cites W2163169780 @default.
W3046391380 cites W2167131637 @default.
W3046391380 cites W2323454323 @default.
W3046391380 cites W2326368454 @default.
W3046391380 cites W2345235904 @default.
W3046391380 cites W2519807900 @default.
W3046391380 cites W2581552391 @default.
W3046391380 cites W2617441822 @default.
W3046391380 cites W2725160637 @default.
W3046391380 cites W2747433631 @default.
W3046391380 cites W2754044261 @default.
W3046391380 cites W2894040445 @default.
W3046391380 cites W2911511438 @default.
W3046391380 cites W2947375698 @default.
W3046391380 cites W2979511956 @default.
W3046391380 doi "https://doi.org/10.1016/j.plaphy.2020.07.002" @default.
W3046391380 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32781273" @default.
W3046391380 hasPublicationYear "2020" @default.
W3046391380 type Work @default.
W3046391380 sameAs 3046391380 @default.
W3046391380 citedByCount "22" @default.
W3046391380 countsByYear W30463913802021 @default.
W3046391380 countsByYear W30463913802022 @default.
W3046391380 countsByYear W30463913802023 @default.
W3046391380 crossrefType "journal-article" @default.
W3046391380 hasAuthorship W3046391380A5027181514 @default.
W3046391380 hasAuthorship W3046391380A5066911268 @default.
W3046391380 hasAuthorship W3046391380A5075534293 @default.
W3046391380 hasAuthorship W3046391380A5082638139 @default.
W3046391380 hasAuthorship W3046391380A5087855114 @default.