Citation:
Mohr G, Zhang A, Gianelos JA, Belfort M, Lambowitz AM. The neurospora CYT-18 protein suppresses defects in the phage T4 td intron by stabilizing the catalytically active structure of the intron core. Cell. 69 (3) :483-94.
Publications
A protein required for RNA processing and splicing in Neurospora mitochondria is related to gene products involved in cell cycle protein phosphatase functions.
Citation:
Turcq B, Dobinson KF, Serizawa N, Lambowitz AM. A protein required for RNA processing and splicing in Neurospora mitochondria is related to gene products involved in cell cycle protein phosphatase functions. Proc Natl Acad Sci U S A. 89 (5) :1676-80.
A tyrosyl-tRNA synthetase binds specifically to the group I intron catalytic core.
Citation:
Guo Q, Lambowitz AM. A tyrosyl-tRNA synthetase binds specifically to the group I intron catalytic core. Genes Dev. 6 (8) :1357-72.
Integration of a group I intron into a ribosomal RNA sequence promoted by a tyrosyl-tRNA synthetase.
Citation:
Mohr G, Lambowitz AM. Integration of a group I intron into a ribosomal RNA sequence promoted by a tyrosyl-tRNA synthetase. Nature. 354 (6349) :164-7.
The LaBelle mitochondrial plasmid of Neurospora intermedia encodes a novel DNA polymerase that may be derived from a reverse transcriptase.
Citation:
Schulte U, Lambowitz AM. The LaBelle mitochondrial plasmid of Neurospora intermedia encodes a novel DNA polymerase that may be derived from a reverse transcriptase. Mol Cell Biol. 11 (3) :1696-706.
The Neurospora crassa cyt-20 gene encodes cytosolic and mitochondrial valyl-tRNA synthetases and may have a second function in addition to protein synthesis.
Citation:
Kubelik AR, Turcq B, Lambowitz AM. The Neurospora crassa cyt-20 gene encodes cytosolic and mitochondrial valyl-tRNA synthetases and may have a second function in addition to protein synthesis. Mol Cell Biol. 11 (8) :4022-35.
The Neurospora mitochondrial tyrosyl-tRNA synthetase is sufficient for group I intron splicing in vitro and uses the carboxy-terminal tRNA-binding domain along with other regions.
Citation:
Kittle JD, Mohr G, Gianelos JA, Wang H, Lambowitz AM. The Neurospora mitochondrial tyrosyl-tRNA synthetase is sufficient for group I intron splicing in vitro and uses the carboxy-terminal tRNA-binding domain along with other regions. Genes Dev. 5 (6) :1009-21.
Structural analysis of the Neurospora mitochondrial large rRNA intron and construction of a mini-intron that shows protein-dependent splicing.
Citation:
Guo QB, Akins RA, Garriga G, Lambowitz AM. Structural analysis of the Neurospora mitochondrial large rRNA intron and construction of a mini-intron that shows protein-dependent splicing. J Biol Chem. 266 (3) :1809-19.
Analysis of large deletions in the Mauriceville and Varkud mitochondrial plasmids of Neurospora.
Citation:
Akins RA, Lambowitz AM. Analysis of large deletions in the Mauriceville and Varkud mitochondrial plasmids of Neurospora. Curr Genet. 18 (4) :365-9.
Function of Neurospora mitochondrial tyrosyl-tRNA synthetase in RNA splicing requires an idiosyncratic domain not found in other synthetases.
Citation:
Cherniack AD, Garriga G, Kittle JD, Akins RA, Lambowitz AM. Function of Neurospora mitochondrial tyrosyl-tRNA synthetase in RNA splicing requires an idiosyncratic domain not found in other synthetases. Cell. 62 (4) :745-55.
