Laura Leticia Barrera Necha scite author profile

Laura Leticia Barrera Necha

5Publications

24Citation Statements Received

43Citation Statements Given

How they've been cited

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223

Affiliations

Instituto Politécnico Nacional

Publications

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Alkaloid Profile Of Leaves And Seeds Of Lupinus Hintonii C. P. Smith

Torres

Quintos

Necha

2002

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Lupinus hintonii, Quinolizidine Alkaloids, Alkaloid Profile L. hintonii C. P. Smith grows in the Central Highland forests of Mexico at altitudes between 2800 m to 3200 m above see level. Members of the genus Lupinus produce quinolizidine alkaloids as main chemical defensive compounds against herbivores. Surprisingly alkaloid profiles are rather constant within this species, while substantial variation was found when compared to morphologically closely related other taxa. As part of a phytochemical project on Mexican wild lupins, we report on the alkaloid profiles of seeds and leaves of L. hintonii. 19 alkaloids could be identified by capillary GLC-MS. Six major alkaloids occurred in leaves and seeds: 13-hydroxylupanine (28% and 45% respectively), tetrahydrorhombifoline (31% and 23% respectively), angustifoline (2% and 4% respectively), lupanine (7% and 5% respectively), 13α-tigloyloxylupanine (19% and 5% respectively) and 4α-angeloyl-3 -hydroxylupanine (9% and 2%). This chemical pattern resembles that of the North American lupin L. floribundus.

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Morphological and Ultrastructural Modifications of Chitosan-Treated Fungal Phytopathogens

Bautista‐Baños¹,

Necha²,

Hernández‐López³

et al. 2016

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Prospects for the Use of Chitosan and Other Alternatives in Ornamental Conservation

Necha¹,

Bautista‐Baños²

2016

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Chemical profile and antifungal activity of plant extracts on Colletotrichum spp. isolated from fruits of Pimenta dioica (L.) Merr.

Silva

Yerena²,

Necha

2021

Pesticide Biochemistry and Physiology

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Caracterización química, variabilidad composicional y modelamiento matemático del efecto de aceites esenciales en Alternaria alternata

Solis¹,

Aguilar²,

Necha³

et al. 2017

RMF

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Se desarrollaron modelos matemáticos del crecimiento y germinación in vitro de Alternaria alternata en presencia de aceites esenciales. Mediante el análisis de componentes principales, se encontraron similitudes entre ellos considerando su composición volátil. El crecimiento micelial y germinación de conidios de A. alternata se evaluó en PDA con aceites de canela, epazote y limón (0.25, 0.5, 1.0 µL mL-1). Los aceites se obtuvieron por hidrodestilación y comercialmente. Se caracterizaron por cromatografía de gases acoplada a espectrometría de masas. Para ajustar los datos experimentales y predecir su comportamiento se emplearon las ecuaciones de Baranyi y Roberts y logística. Por su composición química los aceites se agruparon en: 1) canela (comercial y no-comercial), en el que predominó el cis-Cinamaldehído, 2) limón comercial (D-Limoneno), y epazote (comercial y no-comercial), con Ascaridol y ρ-Cimeno y 3) limón no-comercial. El aceite de canela (0.5 y 1.0 µL∙ mL-1) inhibió el crecimiento micelial de A. alternata, mientras que, la germinación se inhibió 100 % con la presencia de aceites de limón y epazote (0.25 y 0.5 µL∙ mL-1). Los modelos matemáticos y el análisis de componente principales, son herramientas eficaces para entender el efecto de los aceites esenciales en A. alternata.

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