F.G. Loiret scite author profile

Aims: To isolate and identify endophytic nitrogen-fixing bacteria in sugarcane growing in Cuba without chemical fertilizers. Methods and Results: Two N 2 -fixing isolates, 9C and T2, were obtained from surface-sterilized stems and roots, respectively, of sugarcane variety ML3-18. Both isolates showed acetylene reduction and H 2 production in nitrogenfree media. Nitrogenase activity measured by H2 production was about 15 times higher for isolate 9C than for T2 or for Gluconoacetobacter diazotrophicus (PAL-5 standard strain, ATCC 49037). The nifH gene segment was amplified from both isolates using specific primers. Classification of both T2 and 9C was made on the basis of morphological, biochemical, PCR tests and 16S rDNA sequence analysis. Conclusions: Isolate 9C was identified as a Pantoea species from its 16S rDNA, but showed considerable differences in physiological properties from previously reported species of this genus. For example, 9C can be cultured over a wide range of temperature, pH and salt concentration, and showed high H 2 production (up to 67AE7 nmol H 2 h)1 10 10 cell )1 ). Isolate T2 was a strain of Gluconacetobacter diazotrophicus.Significance and Impact of the Study: A new N 2 -fixing endophyte, i.e. Pantoea, able to produce H 2 and to grow in a wide range of conditions, was isolated from sugarcane stem tissue and characterized. The strain with these attributes may well be valuable for agriculture.

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Inoculation of sugarcane with Pantoea sp. increases amino acid contents in shoot tissues; serine, alanine, glutamine and asparagine permit concomitantly ammonium excretion and nitrogenase activity of the bacterium

Loiret

Grimm

Hajirezaei

et al. 2009

Journal of Plant Physiology

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Low recovery frequency of Gluconacetobacter diazotrophicus from plants and associated mealybugs in Cuban sugarcane fields

et al. 2011

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This study was aimed to isolate and identify the N 2 -fixing bacterium Gluconacetobacter diazotrophicus from 11 sugarcane varieties, grown under field conditions in four Cuban provinces, and from their associated mealybugs Saccharicoccus sacchari. Identification was based on morphological and biochemical tests and PCRamplification of 16S rRNA genes using species-specific primers. From all sugarcane varieties and numerous mealybug colonies sampled, G. diazotrophicus isolates were recovered from inside sugarcane stems of only three varieties, and one from S. sacchari colony. These four isolates showed acetylene reduction activity in nitrogen-free media and contained nifH genes which were PCR-amplified using specific primers. ERIC-PCR fingerprinting was used to compare the Cuban G. diazotrophicus isolates with type and reference strains of N 2 -fixing Gluconacetobacteria. The very low frequency of G. diazotrophicus isolates recovered is probably related with the high doses of nitrogen fertilizers applied to the sugarcane in the Cuban fields for almost 30 years. Some genetic differences, using ERIC-PCR, were detected among G. diazotrophicus strains, which could be related with its source.

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Root-System Architectures of Two Cuban Rice Cultivars with Salt Stress at Early Development Stages

Vázquez-Glaría

Eichler‐Löbermann

Loiret

et al. 2021

Plants

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Soil salinity is a critical problem for rice production and is also often associated with phosphors (P) deficiency. Plant hormones, like brassinosteroids, were shown to play a role in plant responses to different stresses and are also expected to mitigate salt stress. The aim of this study was to compare shoot growth and root architecture traits of two rice cultivars (INCA LP-5 and Perla de Cuba) during early plant development in response to salt, P limitation and a brassinosteroid. Seeds were placed in (I) paper rolls for 7 days and (II) mini-rhizotrons for 21 days without or with salt (50 mM NaCl), without or with 24-epibrassinolide (10−6 M) pre-treatment, and with two levels of P (10 or 1 ppm). The root system of LP-5 was larger in size and extent, while the roots of Perla were growing denser. Salt affected mainly the size- and extent-related root characteristics and explained about 70% of the variance. The effect of P was more pronounced without salt treatment. In Perla, P supply reduced the salt effect on root growth. The brassinosteroid had hardly any effect on the development of the plants in both experiments. Due to the high dependence on experimental factors, root length and related traits can be recommended for selecting young rice cultivars regarding salt stress and P deprivation.

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F.G. Loiret

A putative new endophytic nitrogen-fixing bacterium Pantoea sp. from sugarcane

Inoculation of sugarcane with Pantoea sp. increases amino acid contents in shoot tissues; serine, alanine, glutamine and asparagine permit concomitantly ammonium excretion and nitrogenase activity of the bacterium

Low recovery frequency of Gluconacetobacter diazotrophicus from plants and associated mealybugs in Cuban sugarcane fields

Root-System Architectures of Two Cuban Rice Cultivars with Salt Stress at Early Development Stages

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