Rapid Identification and Systematic Mechanism of Flavonoids from Potentilla freyniana Bornm. Based on UHPLC-Q-Exactive Orbitrap Mass Spectrometry and Network Pharmacology by Wei Cai, Kailin Li, Shihan Qin, Pei Xiong, Jie Peng, Silin Shi, Zaiqi Zhang

“…(P. freyniana), belonging to the family Rosaceae, has been used as a folk medicine in China. …”
Get full text

Comparative Analysis of Phenolic Profiles and Antioxidant Activity in the Leaves of Invasive <i>Amelanchier × spicata</i> (Lam.) K. Koch in Lithuania by Sandra Saunoriūtė, Kristina Zymonė, Mindaugas Marksa, Lina Raudonė

“…Koch (dwarf serviceberry) is a shrub species in the <i>Rosaceae</i> Juss. family. The evaluation of different populations of plants that accumulate great amounts of biologically active compounds is requisite for the quality determination of plant materials and medicinal and nutritional products. …”
Get full text

Exploring Phytochemical Profile, Pharmaceutical Activities, and Medicinal and Nutritional Value of Wild Edible Plants in Ethiopia by Woinshet Kassie Alemu, Limenew Abate Worku, Rakesh Kumar Bachheti, Archana Bachheti, Adam Mekonnen Engida

“…Most plant families utilized as WEPs are Moraceae, Fabaceae, Flacourtiaceae, Myrtaceae, Rosaceae, and Tiliaceae. The most widely used plant parts of WEPs were fruits. …”
Get full text

Antioxidant Potential and Its Changes Caused by Various Factors in Lesser-Known Medicinal and Aromatic Plants by Sona Skrovankova, Jiri Mlcek

“…The lesser-known representatives of Lamiaceae family (<i>Lamium album</i>, <i>Leonurus cardiaca</i>, <i>Hyssopus officinalis</i>, <i>Scutellaria baicalensis</i>), Asteraceae family (<i>Artemisia absinthium</i>), Myrtaceae family (<i>Pimenta dioica</i>), and Rosaceae family (<i>Crataegus laevigata</i>) were selected. …”
Get full text

Assessment of Useful Alien Plant Species Cultivated and Managed in Rural Home Gardens of Limpopo Province, South Africa by Sebua Silas Semenya, Alfred Maroyi

“…More than half of the species (66.3%) belonged to 14 families, Fabaceae, Asteraceae, Rosaceae, Solanaceae, Lamiaceae, Anacardiaceae, Poaceae, Amaranthaceae, Apocynaceae, Brassicaceae, Cactaceae, Euphorbiaceae, Moraceae, and Myrtaceae. …”
Get full text

Quantitation of Phenolic Compounds Related to Antioxidant and Antiosteoporosis Activities in Ripe and Unripe Maesil (Prunus mume) by Chong Woon Cho, Young Sik Park, Xi-Tao Yan, Hyun June Kim, Young Ho Kim, Kyung Tae Kim, Chu Van Men, Jong Seong Kang

“…The fruits of Prunus mume, maesil (Rosaceae), have been widely used as a valuable source of foods and herbal medicines from ancient times in Northeast Asia. …”
Get full text

Chromosome-level genome assembly of tetraploid Chinese cherry (Prunus pseudocerasus) by Wei Zhang, Jing Wang, Xuncheng Wang, Xuwei Duan, Junbo Peng, Xiaoming Zhang, Qikai Xing, Kaichun Zhang, Jiye Yan

“…Abstract Chinese cherry belongs to the family Rosaceae, genus Prunus, and has high nutritional and economic value. …”
Get full text

Variation in the Phenolic Compounds Profile and Antioxidant Activity in Different Parts of Hawthorn (Crataegus pentagyna Willd.) During Harvest Periods by Jovana Pavlovic, Snežana Mitić, Milan Mitić, Gordana Kocić, Aleksandra Pavlović, Snežana Tošić

“…Plants of the genus Crataegus , Rosaceae, are widely distributed and have long been used for food and in folk medicine for the treatment of various ailments. …”
Get full text

Molecular markers in the genetic diversity studies of representatives of the genus <i>Rubus</i> L. and prospects of their application in breeding by A. M. Kamnev, O. Yu. Antonova, S. E. Dunaeva, T. A. Gavrilenko, I. G. Chukhina

“…According to estimates of various taxonomists, the genus Rubus L. (Rosaceae Juss.) consists of 12-16 subgenera comprising ~750 species. …”
Get full text

Metabolomics reveal the mechanism for anti-renal fibrosis effects of an n-butanol extract from Amygdalus mongolica by Gao Chen, Chang Hong, Zhou Hong-Bing, Liu Qing, Bai Ying-Chun, Liu Quan-Li, Bai Wan-Fu, Shi Song-Li

“…To reveal the mechanism of anti-renal fibrosis effects of an n-butanol extract from Amygdalus mongolica, renal fibrosis was induced with unilateral ureteral obstruction (UUO) and then treated with an n-butanol extract (BUT) from Amygdalus mongolica (Rosaceae). Sixty male Sprague-Dawley rats were randomly divided into the sham-operated, renal fibrosis (RF) model, benazepril hydrochloride-treated model (1.5 mg kg−1) and BUT-treated (1.75, 1.5 and 1.25 g kg−1) groups and the respective drugs were administered intragastrically for 21 days. …”
Get full text

Characteristics of flora and vegetation of Kolmakhtun Lake – Nature Reserve of local significance of Tomsk Region (West Siberia, Russia) by Valentina P. Amelchenko, Tatiana A. Blyakharchuk, Yulia A. Kharanzhevskaya, Rinat M. Manasypov, Tatiana N. Kataeva

“…The share of 10 leading families accounts for 92 species (43.4%), Asteraceae, Rosaceae and Poaceae dominate. The species composition of adventives totals 40 species, which is 18.9% of the entire flora of the lake. …”
Get full text

Identification and Characterization of the <i>ROP GTPase</i> Gene Family in Strawberry and the Positive Role of <i>FveROP4</i> in Fruit Resistance to Gray Mold by Shuai Zhao, Baode Zhu, Zhijun Zou, Yushan Zhai, Sufeng Liao, Ming Xu, Kunyang Li, Nasir Mehmood, Xiong Liao

“…In this study, we identified 53 <i>ROP</i> genes across the genomes of six Rosaceae species. Based on sequence homology, they were classified into three distinct phylogenetic clades. …”
Get full text

Biodiversity and integration of ecological characteristics of species in spatial pattern analysis by Z. Mohebi, H. Mirzaei

“…The Scrophulariaceae, Malvaceae, Papaveraceae, and Euphorbiaceae families were not found in vegetation Type 1, and vegetation Type 2 had no species of the Boraginaceae, Rosaceae, Thumeliaceae, Capparidaceae, Oleaceae, Sistaceae, and Dispaceae families. …”
Get full text

Elevation gradient effects on grassland species diversity and phylogenetic in the two-river source forest region of the Altai Mountains, Xinjiang, China by Jing Che, Jing Che, Mao Ye, Mao Ye, Qingzhi He, Qingzhi He, Guoyan Zeng, Guoyan Zeng, Miaomiao Li, Miaomiao Li, Weilong Chen, Weilong Chen, Xiaoting Pan, Xiaoting Pan, Jiaorong Qian, Jiaorong Qian, Yexin Lv, Yexin Lv

“…The results indicate that the grassland species composition is dominated by species from the Poaceae, Rosaceae, and Asteraceae families, with Poa annua (annual bluegrass) being the dominant species within Poaceae. …”
Get full text

Crop wild relatives in the protected areas of the Republic of Bashkortostan by S. R. Miftakhova, L. M. Abramova, N. M. Saifullina, O. V. Yusupova

“…Species belonging to the Poaceae, Fabaceae, Rosaceae and Lamiaceae families and the Poa L., Trifolium L., Lathyrus L., Allium L. genera are predominant. …”
Get full text

Variaciones anuales y estacionales en el contenido polinico de la miel de un colmenar by Alicia M. Basilio, E. J. Romero

“…La presencia o ausencia de determinados tipos polínicos no se pudo relacionar con las actividades de tala y la introducción del ganado vacuno Tampoco se halló ninguna relación entre la abundancia de los tipos de polen importantes como el de Amorpha fruticosa, Salix o Rosaceae con factores meteorológicos, aunque la temperatura, las precipitaciones y el número de días de lluvia en los 4 meses anteriores a cada cosecha mostraron relaciones con la abundancia del polen de Astereae 1, Eryngium spp. , Hydrocotile bonariensis, y Myrtaceae 2. …”
Get full text

Ethnobiological survey on medicinal plants used by gaddi and gujjar tribes of riparian region of Beas River of Himachal Pradesh in North Western Himalayas, India by Neha Thakur, Nitesh Kumar, Sanjeev Kumar, Anju Sharma, Yogesh K. Ahlawat, Anurag Malik, Meraj Ahmed

“…The study documented 64 plants from 39 families, among which 58 species are angiosperms, 5 species are pteridophytes and one species is bryophyte utilized for therapeutic purposes. Rosaceae, Lamiaceae, and Ranunculaceae were the most used medicinal herb families. …”
Get full text

ARTEMISIA SIEVERSIANA WILLD. IN TRANSBAIKALIA: FEATURES OF CENOFLORA AND INTRASPECIFIC VARIABILITY by A. B. Sakhyaeva, B. B. Namzalov

“…Asteraceae (24%), Poaceae (11%), Fabaceae (7%),  Rosaceae (7%), Brassicaceae (6%) occupy the leading position in  the spectrum of multispecies families. …”
Get full text

Genome-Wide Identification and Expression Analysis of the <i>GRF</i> and <i>GIF</i> Gene Families in <i>Prunus avium</i> by Hongxu Chen, Yangang Pei, Wanjia Tang, Hongfen Li, Yidi Huang, Yizhe Chu, Guanqiong Kou, Wenyi Niu, Runmei He, Ronggao Gong

“…<i>Prunus avium</i> is a woody plant of economic importance within the genus <i>Prunus</i>, the family Rosaceae, which is affected by various environmental factors during its long growth period. …”
Get full text

Conservation of wild western honey bees Apis Mellifera in the Polissia natural zone of Ukraine: history, sources of nectar and pollen by Sichenko O., Kryvyi M., Horchanok A., Kuzmenko O., Tytariova O.

“…This is the pollen of the Callúna vulgáris L family (Ericaceae) – 35 % and Potentilla erecta L (Rosaceae) – 19 %. Pollen of such species as Frangula alnus L (Rhamnaceae), Lamium purpureum L (Lamiaceae), Vaccinium myrtillus L (Ericaceae), Sisymbrium officinale L (Brassicaceae), Quercus robur L (Fagaceae), Artemisia vulgáris L (Asteraceae), although they occupy the studied honey together 35 % of the total volume of pollen, however, according to the classification, each of these species is defined as important secondary. …”
Get full text