Mohammad Ahmadabadi scite author profile

Mohammad Ahmadabadi

4Publications

63Citation Statements Received

79Citation Statements Given

How they've been cited

How they cite others

123

Affiliations

Azarbaijan Shahid Madani University, Max Planck Institute of Molecular Plant Physiology, University of Tehran

Publications

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A leaf-based regeneration and transformation system for maize (Zea mays L.)

2006

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Efficient methods for in vitro propagation, regeneration, and transformation of plants are of pivotal importance to both basic and applied research. While being the world's major food crops, cereals are among the most difficult-to-handle plants in tissue culture which severely limits genetic engineering approaches. In maize, immature zygotic embryos provide the predominantly used material for establishing regeneration-competent cell or callus cultures for genetic transformation experiments. The procedures involved are demanding, laborious and time consuming and depend on greenhouse facilities. We have developed a novel tissue culture and plant regeneration system that uses maize leaf tissue and thus is independent of zygotic embryos and greenhouse facilities. We report here: (i) a protocol for the efficient induction of regeneration-competent callus from maize leaves in the dark, (ii) a protocol for inducing highly regenerable callus in the light, and (iii) the use of leaf-derived callus for the generation of stably transformed maize plants.

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Identification of differentially expressed genes in salt-tolerant oilseed sunflower (Helianthus annuus L.) genotype by RNA sequencing

et al. 2022

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Plastid division and morphology in the genus Peperomia

Ahmadabadi¹,

Bock²

2012

Biologia plant.

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We have investigated several factors determining plastid size and number in Peperomia, a genus in the Piperaceae family whose species naturally display great interspecific variation in chloroplast size and number per cell. Using microscopic techniques, we show that chloroplast size and number are differently regulated in the palisade parenchyma and the spongy parenchyma, suggesting that chloroplast division in these cell types is controlled in different ways. Microscopic studies of iodine-stained root cells revealed a correlation between amyloplast size in root cells and chloroplast size in palisade parenchyma cells. However, despite substantial variation in chloroplast number in leaf mesophyll cells, amyloplast number in root cells was very similar in all species. The results suggest that organelle size and number are regulated in a tissue-specific manner rather than in dependency on the plastid type. We also demonstrate that plastid size determines the size but not the number of starch grains in root amyloplasts.Additional key words: amyloplast, chloroplast, plastid number, plastid size.

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Development of a highly responsive leaf-based regeneration system for Peperomia species

Ahmadabadi

Bock

2010

Turkish Journal of Botany

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