P
Pal Maliga
Researcher at Rutgers University
Publications - 207
Citations - 18181
Pal Maliga is an academic researcher from Rutgers University. The author has contributed to research in topics: Plastid & Gene. The author has an hindex of 70, co-authored 203 publications receiving 17614 citations. Previous affiliations of Pal Maliga include Hungarian Academy of Sciences.
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Exceptional inheritance of plastids via pollen in Nicotiana sylvestris with no detectable paternal mitochondrial DNA in the progeny
TL;DR: In this paper, the authors detect rare leakage of plastids via pollen in Nicotiana sylvestris and to determine if pollen transmission of Plastids results in co-transmission of paternal mitochondria.
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RNA Editing in Chloroplasts of Spirodela polyrhiza, an Aquatic Monocotelydonous Species.
TL;DR: Comparison of RNA editing sites in coconut, Spirodela, maize, and rice suggests that RNA editing originated from a common ancestor, and RNA editing efficiency contributes more to the yield of translatable transcripts than steady state mRNA levels.
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Engineered RNA-binding protein for transgene activation in non-green plastids.
Qiguo Yu,Alice Barkan,Pal Maliga +2 more
TL;DR: A regulatory system comprising a variant of the maize RNA-binding protein PPR10 and a cognate binding site upstream of a plastid transgene that encodes green fluorescent protein (GFP) enables an increase inTransgene expression in non-photosynthetic plastids without interfering with chloroplast gene expression in leaves.
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Correct Splicing of a Group Ii Intron from a Chimeric Reporter Gene Transcript in Tobacco Plastids
Ralph Bock,Pal Maliga +1 more
TL;DR: The chimeric uidA splicing system will facilitate the study of structural and sequence requirements for group II intron splicing in plastids of higher plants, indicating that inefficient splicing of the highly-expressed uid a mRNA is not due to depletion of factor(s) required for the atpF intron removal.
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Marker rescue from the Nicotiana tabacum plastid genome using a plastid/Escherichia coli shuttle vector.
J. M. Staub,Pal Maliga +1 more
TL;DR: Efficient rescue of kan from the plastid genome in E. coli indicates that NICE 1-based plasmids are suitable for rescuing mutations from any part of the plastsid genome, expanding the repertoire of genetic tools available forplastid biology.