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Genetic variation for seed dormancy in Cuphea laminuligera and Cuphea lanceolata
Euphytica, 1990Various Cuphea species are adapted to temperate climates and characterized by caprylic, capric, and lauric acid-rich seed oils. These fatty acids are solely commercially available from palm kernel and coconut oils; thus, there is considerable interest in Cuphea as an alternative source of these fatty acids.
S. J. Knapp, L. A. Tagliani
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Cuphea spp.: antichemotactic study for a potential anti-inflammatory drug
Natural Product Research, 2020Cuphea genus (Lythraceae) popularly known in Brazil as “sete-sangrias”, it’s described as antimicrobial, anti-inflammatory, diuretic and antihypertensive mainly.
M. Santos +6 more
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Cuphea calophylla var. mesostemon (Koehne) S.A. Graham: A Whole-Ethnopharmacological Investigation
Journal of Medicinal Food, 2020Several species of Cuphea are used medicinally and are reported to have cardioprotective, diuretic, and antihypertensive properties. In Brazil, Cuphea species are collectively called “sete-sangrias” due to their similar appearances and are also used ...
L. M. Klider +15 more
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Journal of Reports in Pharmaceutical Sciences, 2020
Cuphea ignea A. DC. is an ornamental plant belonging to family Lythraceae distributed in the tropics and temperate zones. Some Cuphea members are traditionally used in treatment of hypertension.
W. Ismail +4 more
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Cuphea ignea A. DC. is an ornamental plant belonging to family Lythraceae distributed in the tropics and temperate zones. Some Cuphea members are traditionally used in treatment of hypertension.
W. Ismail +4 more
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Cuphea Production and Management
2014The genus Cuphea (Lythraceae) is quite unique in that most of its 265 different species synthesize and store primarily medium-chain fatty acids (MCFA) in their seeds, and many flourish in temperate climates. Presently, the United States and other developed countries import millions of tons of tropical plant-related oils to provide MCFA for industrial ...
Marisol T. Berti, Russ W. Gesch
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Karyotype of Cuphea lanceolata Ait. and Cuphea viscosissima Jacq.
Crop Science, 1995Cuphea lanceolata Alton and C. viscosissima Jacq. are potential germplasm sources of medium‐chain fatty acids. The fertile hybrid between these two species is being used to develop unproved cultivars as a domestic source of these important oils. A total of 1401 Giemsa C‐banded chromosomes from 145 root‐tip cells of these two species are karyotyped with
Weiping Chen, W. W. Roath
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Cuphea pterosperma Koehne 1877
2012Published as part of Ramella, Lorenzo & Perret, Patrick, 2012, Las colecciones de Johann Rudolph Rengger (1795 - 1832) en Argentina, Brasil y Paraguay. III. Tipificación de los nombres descritos a partir de los herbarios Rengger, pp.
Ramella, Lorenzo, Perret, Patrick
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Industrial Crops and Products, 2005
Abstract Fresh mechanically harvested cuphea seed from the Midwest contains more than 50% moisture. Such high moisture leads to challenging drying problems. Cuphea seeds must be dried immediately to reduce moisture before destructive seed mold and material-clumping develop.
Steven C. Cermak +5 more
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Abstract Fresh mechanically harvested cuphea seed from the Midwest contains more than 50% moisture. Such high moisture leads to challenging drying problems. Cuphea seeds must be dried immediately to reduce moisture before destructive seed mold and material-clumping develop.
Steven C. Cermak +5 more
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Cytogenetics off interpopulationCuphea lanceolatahybrids
Genome, 1995Cuphea lanceolata Ait. (Lythraceae) is an annual diploid (x = 6) with medium-chain fatty acid rich seed oils. Wild C. lanceolata populations are classified as C. lanceolata f. silenoides or C. lanceolata f. lanceolata on the basis of flower pigment differences. Although these taxa are taxonomically close, their interfertility has not been demonstrated.
M S, Ali, S J, Knapp
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