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Ecophysiological constraints of
Aster tripolium
under extreme thermal events impacts: merging biophysical, biochemical and genetic insights
B. Duarte, Johannes Wilhelm Gössling, J.C. Marques, I. Cacador
Marine Biology
25
Citations (Scopus)
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Aster tripolium
under extreme thermal events impacts: merging biophysical, biochemical and genetic insights'. Together they form a unique fingerprint.
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Medicine & Life Sciences
Aster Plant
21%
Carotenoids
10%
Climate Change
11%
Cold Temperature
53%
Desiccation
12%
Extreme Heat
99%
Extreme Weather
15%
Gene Expression
10%
Genes
3%
Heat-Shock Response
9%
Hot Temperature
19%
Infrared Rays
39%
Molecular Biology
48%
mRNA maturase
17%
Oxidative Stress
6%
Peptide Hydrolases
7%
Peroxidase
8%
Pigmentation
9%
Proteins
6%
RNA
5%
Salt-Tolerant Plants
32%
Temperature
6%
Agriculture & Biology
alternative crops
11%
antennae
8%
carotenoids
7%
cash crops
10%
chronic exposure
9%
climate change
7%
crops
4%
dehydrins
11%
gene expression
10%
genes
2%
halophytes
20%
heat
33%
heat stress
7%
heat treatment
6%
oxidative stress
6%
peroxidase
6%
pigmentation
8%
proteinases
6%
proteins
2%
regulatory proteins
9%
RNA
5%
temperature
3%
Tripolium pannonicum
100%
weather
7%