Add to ORKGThe maize photosynthetic mutant hcf106 has a distinctive and unusual thylakoid membrane organization, and fails to accumulate three of the five thylakoid membrane protein complexes. This mutant arose in a Robertson's Mutator background, and shows somatic instability typical of a transposon-induced allele. In addition, hcf106 is suppressed when Mu1 elements are inactive and modified in their terminal inverted repeats. Thus plants homozygous for the mutant allele adopt a mutant phenotype only when Mu1 elements are active and unmodified. DNA from the mutant allele has been cloned by 'transposon-tagging' using the transposon Mu1, and the identity of the clone confirmed by observing somatic excision of the transposon in a revertant sector. A 1.2...
Nearly a decade ago, Dr. Donald S. Robertson first described the Mutator system in Zea mays. Roberts...
Plant mitochondrial genomes are much larger and complex in structure than in other eukaryotes. The h...
A recessive maize mutant disrupted in seedling development was isolated following transpositional mu...
The HCF106 (high chlorophyll flourescence) gene of maize encodes a chloroplast membrane protein requ...
Many transposable elements in maize alternate between active and inactive phases associated with the...
Transposable elements from the Robertson's Mutator family are highly active insertional mutagens in ...
We described previously a mutation in maize, hcf106, caused by the insertion of a Mu1 transposon. Wh...
The Mutator system of transposable elements is characterized by a family of transposons called Mu tr...
The High chlorophyll fluorescence106 (Hcl106) gene in maize is required for chloroplast membrane bio...
Photosynthetic electron transport mutants of Arabidopsis thaflana were isolated using the high chlo...
AbstractBackgroundChloroplast biogenesis involves a collaboration between several thousand nuclear g...
Forward genetics has been vital in revealing the identity and function of most plant genes. However,...
A striped-leaf mutant has been identified in a Taiwanese maize line, Tainan White. The striped area ...
The mature maize leaf is characterised by a series of parallel veins that are surrounded by concentr...
Nuclear recessive mutations at the chloroplast mutator (CHM) locus of Arabidopsis produce a variegat...
Nearly a decade ago, Dr. Donald S. Robertson first described the Mutator system in Zea mays. Roberts...
Plant mitochondrial genomes are much larger and complex in structure than in other eukaryotes. The h...
A recessive maize mutant disrupted in seedling development was isolated following transpositional mu...
The HCF106 (high chlorophyll flourescence) gene of maize encodes a chloroplast membrane protein requ...
Many transposable elements in maize alternate between active and inactive phases associated with the...
Transposable elements from the Robertson's Mutator family are highly active insertional mutagens in ...
We described previously a mutation in maize, hcf106, caused by the insertion of a Mu1 transposon. Wh...
The Mutator system of transposable elements is characterized by a family of transposons called Mu tr...
The High chlorophyll fluorescence106 (Hcl106) gene in maize is required for chloroplast membrane bio...
Photosynthetic electron transport mutants of Arabidopsis thaflana were isolated using the high chlo...
AbstractBackgroundChloroplast biogenesis involves a collaboration between several thousand nuclear g...
Forward genetics has been vital in revealing the identity and function of most plant genes. However,...
A striped-leaf mutant has been identified in a Taiwanese maize line, Tainan White. The striped area ...
The mature maize leaf is characterised by a series of parallel veins that are surrounded by concentr...
Nuclear recessive mutations at the chloroplast mutator (CHM) locus of Arabidopsis produce a variegat...
Nearly a decade ago, Dr. Donald S. Robertson first described the Mutator system in Zea mays. Roberts...
Plant mitochondrial genomes are much larger and complex in structure than in other eukaryotes. The h...
A recessive maize mutant disrupted in seedling development was isolated following transpositional mu...