Alejandra Landau scite author profile

Alejandra Landau

3Publications

71Citation Statements Received

56Citation Statements Given

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123

Affiliations

National Agricultural Technology Institute, National Institute of Industrial Technology, University of Potsdam

Publications

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A Cytoplasmically Inherited Barley Mutant Is Defective in Photosystem I Assembly Due to a Temperature-Sensitive Defect in ycf3 Splicing

Landau

Lokstein

Scheller

et al. 2009

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A cytoplasmically inherited chlorophyll-deficient mutant of barley (Hordeum vulgare) termed cytoplasmic line 3 (CL3), displaying a viridis (homogeneously light-green colored) phenotype, has been previously shown to be affected by elevated temperatures. In this article, biochemical, biophysical, and molecular approaches were used to study the CL3 mutant under different temperature and light conditions. The results lead to the conclusion that an impaired assembly of photosystem I (PSI) under higher temperatures and certain light conditions is the primary cause of the CL3 phenotype. Compromised splicing of ycf3 transcripts, particularly at elevated temperature, resulting from a mutation in a noncoding region (intron 1) in the mutant ycf3 gene results in a defective synthesis of Ycf3, which is a chaperone involved in PSI assembly. The defective PSI assembly causes severe photoinhibition and degradation of PSII.

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Plastome Mutations and Recombination Events in Barley Chloroplast Mutator Seedlings

Landau

Lencina

Pacheco

et al. 2016

JHERED

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The barley chloroplast mutator (cpm) is an allele of a nuclear gene that when homozygous induces several types of cytoplasmically inherited chlorophyll deficiencies. In this work, a plastome Targeting Induced Local Lesions in Genomes (TILLING) strategy based on mismatch digestion was used on families that carried the cpm genotype through many generations. Extensive scanning of 33 plastome genes and a few intergenic regions was conducted. Numerous polymorphisms were detected on both genic and intergenic regions. The detected polymorphisms can be accounted for by at least 61 independent mutational events. The vast majority of the polymorphisms originated in substitutions and small indels (insertions/deletions) in microsatellites. The rpl23 and the rps16 genes were the most polymorphic. Interestingly, the variation observed in the rpl23 gene consisted of several combinations of 5 different one nucleotide polymorphisms. Besides, 4 large indels that have direct repeats at both ends were also observed, which appear to be originated from recombinational events. The cpm mutation spectrum suggests that the CPM gene product is probably involved in plastome mismatch repair. The numerous subtle molecular changes that were localized in a wide range of plastome sites show the cpm as a valuable source of plastome variability for plant research and/or plant breeding. Moreover, the cpm mutant appears to be an interesting experimental material for investigating the mechanisms responsible for maintaining the stability of plant organelle DNA.

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Two infA Gene Mutations Independently Originated from a Mutator Genotype in Barley

Landau

Paleo

Civitillo

et al. 2007

Journal of Heredity

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Cytoplasmic line 2 (CL2) is a chlorophyll mutant that was selected from a plastid mutator genotype in barley. The dynamics of greening and plastid development of CL2 first-leaf blade contrasts with that of monocots. Previous characterizations of CL2 suggested that this mutant has a delay of plastid gene translation during embryogenesis. We hypothesize that CL2 is a mutant in the infA gene, which encodes translation initiation factor 1 (IF1). Wild-type barley infA gene differs in some nucleotides from that in wheat, but the corresponding IF1 proteins are identical. However, infA from CL2 carries a point mutation, which leads to an amino acid change in IF1 residue 52. One CL2-like seedling selected from a new mutator pool also carries a point mutation in infA gene, this time leading to a change of the universally conserved amino acid residue 32. Both point mutations were T --> C substitutions. We sequenced the complementary DNA of the infA transcripts from the wild type and CL2 and found that the mutation was conserved at the mRNA level. Results strongly suggest that CL2 and CL2-like are infA gene mutants, this being the first time that a mutant phenotype is attributed to infA gene in a higher plant.

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