scholarly journals Identification of Potential Metabolites Mediating Bird’s Selective Feeding on Prunus mira Flowers

2019 ◽  
Vol 2019 ◽  
pp. 1-8 ◽  
Author(s):  
Shanshan Zhang ◽  
Hong Ying ◽  
Gesang Pingcuo ◽  
Shuo Wang ◽  
Fan Zhao ◽  
...  
Keyword(s):  
Feeding Behavior ◽  
Yield Potential ◽  
Amino Acid Derivatives ◽  
Selective Feeding ◽  
Targeted Metabolomics ◽  
Salvianolic Acid ◽  
Salvianolic Acid A ◽  
Intraspecific Variations ◽  
Sampling Locations ◽  
Widely Targeted Metabolomics

In peach orchards, birds severely damage flowers during blossom season, decreasing the fruit yield potential. However, the wild peach species Prunus mira shows intraspecific variations of bird damage, indicating that some of the wild trees have developed strategies to avert bird foraging. Motivated by this observation, we formulated the present study to identify the potential flower metabolites mediating the bird’s selective feeding behavior in P. mira flowers. The birds’ preferred (FG) and avoided (BFT) flowers were collected from wild P. mira trees at three different locations, and their metabolite contents were detected, quantified, and compared. The widely-targeted metabolomics approach was employed to detect a diverse set of 603 compounds, predominantly, organic acids, amino acid derivatives, nucleotide and its derivatives, and flavones. By quantitatively comparing the metabolite contents between FG and BFT, three candidate metabolites, including Eriodictiol 6-C-hexoside 8-C-hexoside-O-hexoside, Luteolin O-hexosyl-O-hexosyl-O-hexoside, and Salvianolic acid A, were differentially accumulated and showed the same pattern across the three sampling locations. Distinctly, Salvianolic acid A was abundantly accumulated in FG but absent in BFT, implying that it may be the potential metabolite attracting birds in some P. mira flowers. Overall, this study sheds light on the diversity of the floral metabolome in P. mira and suggests that the bird’s selective feeding behavior may be mediated by variations in floral metabolite contents.

scholarly journals Bioactive Phenolic Compounds from the Roots of Danshen (Salvia miltiorrhiza)

2018 ◽  
Vol 13 (10) ◽  
pp. 1934578X1801301
Author(s):  
Nguyen Huu Tung ◽  
Le Quoc Hung ◽  
Ha Van Oanh ◽  
Duong Thi Ly Huong ◽  
Phuong Thien Thuong ◽  
...  
Keyword(s):  
Phenolic Compounds ◽  
Methyl Ester ◽  
Ethyl Ester ◽  
Rosmarinic Acid ◽  
Salvia Miltiorrhiza ◽  
Chemical Constituents ◽  
Acid Methyl Ester ◽  
Acid Ethyl Ester ◽  
Salvianolic Acid ◽  
Salvianolic Acid A

Danshen ( Salvia miltiorrhiza Bunge) is one of the most used medicinal plants in the Oriental medicine and has been well studied for application in modern medicine. In our continuing study on chemical constituents of danshen cultivated in Vietnam, using chromatography separation resulted in the isolation of six phenolic compounds including a benzophenone, iriflophenone 2- O- α-L-rhamnopyranoside (1), and five phenolic acids including rosmarinic acid (2), rosmarinic acid methyl ester (3), rosmarinic acid ethyl ester (4), salvianolic acid A methyl ester (5) and salvianolic acid A ethyl ester (6) from the butanol portion of the danshen crude extract. Beside the typically main phenolic acid components, to our knowledge, iriflophenone 2- O- α-L-rhamnopyranoside (1) was first isolated from salvia sp. On biological testing, compound 1 showed strong antiproliferative activity on HL-60 leukemia cells with the IC50 of 8.9 μM; compounds 1 and 3–6 inhibited markedly nitric oxide production in lipopolysaccharide-treated RAW 264.7 cells.

Effect of Salvianolic Acid A, a Depside from Roots ofSalvia miltiorrhiza, on Gastric H+, K+-ATPase

Planta Medica ◽  
1990 ◽  
Vol 56 (04) ◽  
pp. 360-363 ◽  
Author(s):  
Shigeru Murakami ◽  
Haruko Kijima ◽  
Yoshihiko Isobe ◽  
Makoto Muramatsu ◽  
Hironaka Aihara ◽  
...  
Keyword(s):  
Salvianolic Acid ◽  
Salvianolic Acid A

Opportunistic feeding by desert bats (Myotis spp.)

1976 ◽  
Vol 54 (4) ◽  
pp. 526-530 ◽  
Author(s):  
M. B. Fenton ◽  
G. K. Morris
Keyword(s):  
Feeding Behavior ◽  
Food Resources ◽  
Selective Feeding ◽  
Insectivorous Bats ◽  
Black Light ◽  
Opportunistic Feeding

By using a 'black light' and playback of sounds made by foraging insectivorous bats, we examined opportunistic feeding behavior of bats near Camp Verde, Arizona, between 1 and 10 June 1975. Bats were significantly most active during 15-min periods when the light was on and insects were aggregated over it. Bats feeding over the light selectively pursued and captured larger insects, apparently ignoring the smaller ones. Bats did not respond to sounds simulating feeding buzzes of bats, but showed a slight response to the foraging sounds of other bats. Opportunistic feeding by insectivorous bats allows effective exploitation of patchily distributed food resources and can lead to selective feeding when 'hatches' of insects are involved. Opportunistic feeding is not incompatible with selective feeding, and may eventually be established as a strategy common to most insectivorous bats.

scholarly journals Extensive Metabolite Profiling in the Unexploited Organs of Black Tiger for Their Potential Valorization in the Pharmaceutical Industry

Life ◽  
2021 ◽  
Vol 11 (6) ◽  
pp. 544
Author(s):  
Jianfei Gao ◽  
Kangning Xiong ◽  
Wei Zhou ◽  
Weijie Li
Keyword(s):  
Acid Metabolism ◽  
Metabolite Profile ◽  
Industrial Applications ◽  
Targeted Metabolomics ◽  
Arginine Biosynthesis ◽  
Nutritional Values ◽  
Phenylpropanoid Biosynthesis ◽  
Tyrosine Metabolism ◽  
Organ Specific ◽  
Widely Targeted Metabolomics

Black tiger (Kadsura coccinea (Lem.)) has been reported to hold enormous pharmaceutical potential. The fruit and rhizome of black tiger are highly exploited in the pharmaceutical and other industries. However, the most important organs from the plant such as the leaf and stem are considered biowastes mainly because a comprehensive metabolite profile has not been reported in these organs. Knowledge of the metabolic landscape of the unexploited black tiger organs could help identify and isolate important compounds with pharmaceutical and nutritional values for a better valorization of the species. In this study, we used a widely targeted metabolomics approach to profile the metabolomes of the K. coccinea leaf (KL) and stem (KS) and compared them with the root (KR). We identified 642, 650 and 619 diverse metabolites in KL, KS and KR, respectively. A total of 555 metabolites were mutually detected among the three organs, indicating that the leaf and stem organs may also hold potential for medicinal, nutritional and industrial applications. Most of the differentially accumulated metabolites between organs were enriched in flavone and flavonol biosynthesis, phenylpropanoid biosynthesis, arginine and proline metabolism, arginine biosynthesis, tyrosine metabolism and 2-oxocarboxylic acid metabolism pathways. In addition, several important organ-specific metabolites were detected in K. coccinea. In conclusion, we provide extensive metabolic information to stimulate black tiger leaf and stem valorization in human healthcare and food.

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