|1.||Taylor, Robert W: 4 articles (01/2014 - 02/2004)|
|2.||Guy, Michael P: 2 articles (01/2015 - 10/2012)|
|3.||Phizicky, Eric M: 2 articles (01/2015 - 10/2012)|
|4.||McFarland, Robert: 2 articles (01/2014 - 02/2004)|
|5.||Suzuki, Tsutomu: 2 articles (01/2012 - 06/2011)|
|6.||Swalwell, Helen: 2 articles (11/2010 - 06/2006)|
|7.||Turnbull, Douglass M: 2 articles (11/2010 - 02/2004)|
|8.||Oldfors, A: 2 articles (08/2006 - 01/2004)|
|9.||Holme, E: 2 articles (08/2006 - 01/2004)|
|10.||Kollberg, G: 2 articles (08/2006 - 01/2004)|
|1.||Hepatocellular Carcinoma (Hepatoma)
05/01/1971 - "Studies on transfer RNA-Phe from Morris 5123C hepatoma."
04/25/1973 - "Foetal liver tRNA phe in rat hepatoma."
|2.||Stomach Neoplasms (Stomach Cancer)
09/01/2003 - "To explore the instabilities, polymorphisms and other variations of mitochondrial D-loop region and downstream gene 12S rRNA-tRNA(phe) in gastric cancers, and to study their relationship with gastric cancer. "
09/01/2003 - "The poorly differentiated gastric cancers are more prone to 12S rRNA-tRNA(phe) variations, or gastric cancers with 12S rRNA-tRNA(phe) variations are more likely to be poorly differentiated. "
09/01/2003 - "There is a significant correlation between differentiation degree of gastric cancer and variant frequencies of 12S rRNA-tRNA(phe). "
09/01/2003 - "There existed 2/12(16.7 %) and 6/10(60 %) alterations of 12S rRNA-tRNA(phe) in well differentiated gastric cancers and poorly differentiated ones, respectively (P<0.05). "
|3.||Systemic Lupus Erythematosus (Libman-Sacks Disease)
05/01/1997 - "Experiments and hydrolysis of substrates with known spatial structures (such as yeast tRNAPhe, as well as normal and mutant tRNALys from human mitochondria produced by transcription of the appropriate DNA species, that is, RNA genes) were performed to study the ribonuclease activity of antibodies isolated from blood sera of patients with systemic lupus erythematosus (SLE). "
01/01/2012 - "However, no difference in the tRNA(Phe) modification status was observed in either normal mouse tissue or a mouse tumor model that overexpresses Tyw2, indicating that hTYW2 may have a role in tumorigenesis unrelated to yW biogenesis."
01/01/1983 - "Thus it is concluded that tumor-specific tRNAPhe species are the products of aberrant post-transcriptional modification, not the transcripts of different, normally repressed genes."
01/10/1985 - "Since the tumor-specific hypomodified Phe-tRNAPhe is generally utilized preferntially, it appears that the bulky Y base and/or other modifications of normal tRNAPhe may modulate protein synthesis and that tumor cells may achieve a growth advantage if their tRNAPhe is hypomodified."
12/01/1982 - "In particular, mature yeast phenylalanine-specific tRNA, which is methylated in vivo at all major eukaryotic methylation sites and should not be a substrate for eukaryotic methylating enzymes in vitro, could be methylated at low levels by the tumor enzyme. "
10/25/1982 - "Changes of post-transcriptional modification of wye base in tumor-specific tRNAPhe."
01/01/1983 - "On the contrary, tRNAPhe from neuroblastoma contained C32, G34, and, instead of YOH base m1G. "
01/05/2001 - "We now report the shifty tRNA(Phe) contains 1-methylguanosine (m(1)G) in place of Y and that the m(1)G form from rabbit reticulocytes stimulates frameshifting more efficiently than its m(1)G-containing counterpart from mouse neuroblastoma cells. "
01/10/1985 - "The hypomodified Phe-tRNAPhe of neuroblastoma cells is generally preferred to the fully modified tRNAPhe of liver in globin synthesis by about 15%. "
10/25/1982 - "Nucleotide sequences of normal mouse liver tRNAPhe and tumor-specific tRNAPhes isolated from Ehrlich ascites tumor and neuroblastoma cells were examined by post-labeling techniques. "
01/01/1983 - "To decide whether the tumor-specific species represent an expression of a separate tRNA gene or only an undermodified form of normal tRNAPhe, nucleotide sequences of tRNAPhe isolated from neuroblastoma and normal mouse liver were determined by postlabeling techniques. "
|1.||DNA (Deoxyribonucleic Acid)
|2.||Lys Transfer RNA
|3.||RNA (Ribonucleic Acid)
|6.||12S ribosomal RNA
|7.||Transfer RNA (tRNA)
|8.||wye (Y base)
|9.||Mitochondrial DNA (mtDNA)