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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
Chemical Compound Review

Cyanthoate     N-(2-cyanopropan-2-yl)-2...

Synonyms: Tartan, TH-427-1, AR-1L6636, LS-108502, AC1L2ST7, ...
 
 
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Disease relevance of M 1568

 

High impact information on M 1568

  • Here, we present evidence that two transmembrane proteins with leucine-rich repeats, known as Capricious and Tartan, contribute to formation of the affinity boundary between dorsal and ventral compartments during Drosophila wing development [2].
  • The LRR proteins capricious and Tartan mediate cell interactions during DV boundary formation in the Drosophila wing [2].
  • Whereas genes such as phyllopod play a crucial role during specification of particular muscles, others such as tartan are necessary for normal muscle morphogenesis [3].
  • These two antagonizing transcription factors subsequently control the expression of secondary target genes such as otd, argos and tartan [4].
  • Distinct functions of the leucine-rich repeat transmembrane proteins capricious and tartan in the Drosophila tracheal morphogenesis [5].
 

Biological context of M 1568

  • We present evidence showing that cells incorrectly specified for their position undergo apoptosis because they fail to express specific proteins that are found on surrounding cells, including the LRR transmembrane proteins Capricious and Tartan [6].
  • Conclusively, at ordinary speed, the heart rates of the college students on a tartan track were situated around the level of the lower boundary which the American College of Sports Medicine recommended to develop and maintain cardiorespiratory fitness for apparently healthy people [7].
 

Anatomical context of M 1568

  • The LRR transmembrane proteins Capricious and Tartan are transiently expressed in D cells and contribute to initial segregation of D and V cells [8].
  • Mutants homozygous for a recessive lethal tartan loss-function allele exhibit defects in the position and number of cells within peripheral sense organs, the routing of peripheral nerves, and the organization of commissures within the central nervous system [9].
 

Associations of M 1568 with other chemical compounds

  • In this study, tartan check shapes made by crossing grooves and dot shapes made by forming holes were produced on titanium (Ti6A14V) or cobalt chrome (CoCr) and evaluated with computer-assisted histological analysis and measurement of bone-metal interface shear strength [10].
 

Analytical, diagnostic and therapeutic context of M 1568

  • Boundary formation in the Drosophila wing: functional dissection of Capricious and Tartan [11].
  • These results indicate that the tartan check shape made of 500-microm-wide grooves on metal surfaces has potential for clinical application in artificial prosthesis design [10].
  • METHODS: Eleven experienced male wheelchair sportsmen performed three 25-m SRs in random order with varying turning capacity (TC) and mechanical resistance (MR): condition NN where participants used their sports wheelchair on a tartan surface, condition RN with increased MR, and condition RD with limited TC [12].

References

  1. Tartan Turf on trial. A comparison of intercollegiate football injuries occurring on natural grass and Tartan Turf. Keene, J.S., Narechania, R.G., Sachtjen, K.M., Clancy, W.G. The American journal of sports medicine. (1980) [Pubmed]
  2. The LRR proteins capricious and Tartan mediate cell interactions during DV boundary formation in the Drosophila wing. Milán, M., Weihe, U., Pérez, L., Cohen, S.M. Cell (2001) [Pubmed]
  3. Notch and Ras signaling pathway effector genes expressed in fusion competent and founder cells during Drosophila myogenesis. Artero, R., Furlong, E.E., Beckett, K., Scott, M.P., Baylies, M. Development (2003) [Pubmed]
  4. EGF receptor signaling induces pointed P1 transcription and inactivates Yan protein in the Drosophila embryonic ventral ectoderm. Gabay, L., Scholz, H., Golembo, M., Klaes, A., Shilo, B.Z., Klämbt, C. Development (1996) [Pubmed]
  5. Distinct functions of the leucine-rich repeat transmembrane proteins capricious and tartan in the Drosophila tracheal morphogenesis. Krause, C., Wolf, C., Hemphälä, J., Samakovlis, C., Schuh, R. Dev. Biol. (2006) [Pubmed]
  6. Short-range cell interactions and cell survival in the Drosophila wing. Milán, M., Pérez, L., Cohen, S.M. Dev. Cell (2002) [Pubmed]
  7. Heart rate response and perceived exertion in college students during riding a scooter. Arimoto, M., Kijima, A., Muramatsu, S. Journal of physiological anthropology and applied human science. (2002) [Pubmed]
  8. A re-evaluation of the contributions of Apterous and Notch to the dorsoventral lineage restriction boundary in the Drosophila wing. Milán, M., Cohen, S.M. Development (2003) [Pubmed]
  9. Molecular and genetic characterization of the Drosophila tartan gene. Chang, Z., Price, B.D., Bockheim, S., Boedigheimer, M.J., Smith, R., Laughon, A. Dev. Biol. (1993) [Pubmed]
  10. Macro-structural effect of metal surfaces treated using computer-assisted yttrium-aluminum-garnet laser scanning on bone-implant fixation. Hirao, M., Sugamoto, K., Tamai, N., Oka, K., Yoshikawa, H., Mori, Y., Sasaki, T. Journal of biomedical materials research. Part A. (2005) [Pubmed]
  11. Boundary formation in the Drosophila wing: functional dissection of Capricious and Tartan. Milán, M., Pérez, L., Cohen, S.M. Dev. Dyn. (2005) [Pubmed]
  12. Determinants of shuttle run performance in the prediction of peak VO2 in wheelchair users. Vanlandewijck, Y., van de Vliet, P., Verellen, J., Theisen, D. Disability and rehabilitation (2006) [Pubmed]
 
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