Mario Rodrı́guez-Monroy scite author profile

Plant tissue cultures represent a potential source for producing secondary metabolites. In this work, Buddleja cordata tissue cultures were established in order to produce phenylpropanoids (verbascoside, linarin and hydroxycinnamic acids), as these metabolites are credited with therapeutic properties. Highest callus induction (76.4-84.3%) was obtained in five treatments containing 2,4-Dichlorophenoxyacetic acid (2,4-D: 0.45-9.05 lM) with Kinetin (KIN: 2.32, 4.65 lM), whereas highest root induction (79.6%) corresponded to the a-Naphthaleneacetic acid (9.05 lM) with KIN (2.32 lM) treatment. Verbascoside was the major phenylpropanoid produced in in vitro cultures (root, white and green callus) [66.24-86.26 mg g -1 dry weight (DW)], while linarin and hydroxycinnamic acid production was low (0.95-3.01 mg g -1 DW). Verbascoside and linarin production were improved in cell suspension culture (116 mg g -1 DW and 8.12 mg g -1 DW, respectively).

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Broth rheology, growth and metabolite production of Beta vulgaris suspension culture: a comparative study between cultures grown in shake flasks and in a stirred tank

Rodrı́guez-Monroy¹,

Galindo

1999

Enzyme and Microbial Technology

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Production of Dihydroxylated Betalains and Dopamine in Cell Suspension Cultures of Celosia argentea var. plumosa

Guadarrama-Flores

Rodrı́guez-Monroy

Cruz-Sosa

et al. 2015

J. Agric. Food Chem.

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Betalains are plant pigments of hydrophilic nature with demonstrated chemopreventive potential in cancer cell lines and animal models. Among the betalains, those containing an aromatic moiety with two free hydroxyl groups possess the strongest antioxidant and free radical scavenging activities. The betaxanthins dopaxanthin and miraxanthin V and the betacyanins betanidin and decarboxy-betanidin are the only natural betalains with catecholic substructures. These four pigments have been produced in cell cultures established from hypocotyls of the plant Celosia argentea. Two stable and differentially colored cell lines, yellow and red, were maintained on Murashige and Skoog medium supplemented with the plant growth regulators 6-benzylaminopurine (6.66 μM) and 2,4-dichlorophenoxyacetic acid (6.79 μM). Derived suspension cultures showed increased production of dihydroxylated betalains in the cells and secreted to the medium with a maximum reached after 8 days of culture. In addition, precursor molecules betalamic acid and dopamine, with content up to 42.08 mg/g dry weight, were also obtained. The joint presence of the bioactive betalains together with the production of dopamine and betalamic acid show the ability of cell cultures of C. argentea to become a stable source of valuable phytochemicals.

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Effect of Trichoderma asperellum applications and mineral fertilization on growth promotion and the content of phenolic compounds and flavonoids in onions

Ortega-García

Montes‐Belmont

Rodrı́guez-Monroy

et al. 2015

Scientia Horticulturae

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Monoterpenoid Oxindole Alkaloid Production by Uncaria tomentosa (Willd) D.C. Cell Suspension Cultures in a Stirred Tank Bioreactor

Trejo‐Tapia

Cerda-Garcı́a-Rojas

Rodrı́guez-Monroy

et al. 2008

Biotechnol Progress

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Cell growth, monoterpenoid oxindole alkaloid (MOA) production, and morphological properties of Uncaria tomentosa cell suspension cultures in a 2-L stirred tank bioreactor were investigated. U. tomentosa (cell line green Uth-3) was able to grow in a stirred tank at an impeller tip speed of 95 cm/s (agitation speed of 400 rpm), showing a maximum biomass yield of 11.9 +/- 0.6 g DW/L and a specific growth rate of 0.102 d(-1). U. tomentosa cells growing in a stirred tank achieved maximum volumetric and specific MOA concentration (467.7 +/- 40.0 microg/L, 44.6 +/- 5.2 microg/g DW) at 16 days of culture. MOA chemical profile of cell suspension cultures growing in a stirred tank resembled that of the plant. Depending on culture time, from the total MOA produced, 37-100% was found in the medium in the bioreactor culture. MOA concentration achieved in a stirred tank was up to 10-fold higher than that obtained in Erlenmeyer flasks (agitated at 110 rpm). In a stirred tank, average area of the single cells of U. tomentosa increased up to 4-fold, and elliptical form factor increased from 1.40 to 2.55, indicating enlargement of U. tomentosa single cells. This work presents the first report of U. tomentosa green cell suspension cultures that grow and produce MOA in a stirred tank bioreactor.

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Trichoderma asperellum, a potential biological control agent of Stemphylium vesicarium, on onion (Allium cepa L.)

et al. 2020

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Untitled

Trejo‐Tapia¹,

Jiménez–Aparicio²,

Rodrı́guez-Monroy³

et al. 2001

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Arabinogalactan proteins are involved in cell aggregation of cell suspension cultures of Beta vulgaris L.

Capataz-Tafur

Trejo‐Tapia

Rodrı́guez-Monroy

et al. 2010

Plant Cell Tiss Organ Cult

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Arabinogalactan proteins (AGPs) are glycoproteins present at cell surfaces. Although exact functions of AGPs remain elusive, they are implicated in plant growth and development. The aim of this study was to evaluate the role of AGPs in the process of cell aggregation of Beta vulgaris L. suspension cultures. It was observed that B. vulgaris suspension cultures accumulated AGPs in parallel form to its cell growth. The AGPs maximum content in the stationary phase was 0.330 mg g -1 dry weight (DW) in the cell wall (CW) and 1.534 mg g -1 DW in the culture medium (CM), generating cell aggregates [500 lm (93.21% DW). The addition of tunicamycin (TM) caused a reduction of AGPs content in CW and CM of 46 and 64%, respectively. These changes were associated with inhibition of growth and the reduction of the cell aggregates [500 lm (50.0% DW). When TM was removed from the CM, cell growth, aggregation, and AGPs content on CW and CM were recovered. Precipitation of AGPs with Yariv reagent generated a reduction of 61.14% of AGPs content in CW and a total inhibition of AGPs secretion in CM. This Yariv treatment generated a reduction in the cell aggregates [500 lm of 51.31% of DW. When the Yariv reagent was removed from the culture, cells did not recover their AGPs accumulation. In addition, cell cultures did not recover their ability to grow and aggregate. These results indicate that AGPs are molecules required in the cellular aggregation process of B. vulgaris L. suspension cultures.

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