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Full-Text Articles in Biology
Biphasic Targeting And Cleavage Furrow Ingression Directed By The Tail Of A Myosin Ii, X. Fang, J. Y. Luo, R. Nishihama, C. Wloka, C. Dravis, M. Travaglia, M. Iwase, Elizabeth Ann Vallen, E. Bi
Biphasic Targeting And Cleavage Furrow Ingression Directed By The Tail Of A Myosin Ii, X. Fang, J. Y. Luo, R. Nishihama, C. Wloka, C. Dravis, M. Travaglia, M. Iwase, Elizabeth Ann Vallen, E. Bi
Biology Faculty Works
Cytokinesis in animal and fungal cells utilizes a contractile actomyosin ring (AMR). However, how myosin II is targeted to the division site and promotes AMR assembly, and how the AMR coordinates with membrane trafficking during cytokinesis, remains poorly understood. Here we show that Myo1 is a two-headed myosin II in Saccharomyces cerevisiae, and that Myo1 localizes to the division site via two distinct targeting signals in its tail that act sequentially during the cell cycle. Before cytokinesis, Myo1 localization depends on the septin-binding protein Bni5. During cytokinesis, Myo1 localization depends on the IQGAP Iqg1. We also show that the Myo1 …
The Biopax Community Standard For Pathway Data Sharing, E. Demir, M. P. Cary, S. Paley, K. Fukuda, C. Lemer, I. Vastrik, G. Wu, P. D’Eustachio, C. Schaefer, J. Luciano, F. Schacherer, I. Martinez-Flores, Z. Hu, V. Jimenez-Jacinto, G. Joshi-Tope, K. Kandasamy, A. C. Lopez-Fuentes, H. Mi, E. Pichler, I. Rodchenkov, A. Splendiani, S. Tkachev, J. Zucker, G. Gopinath, H. Rajasimha, R. Ramakrishnan, I. Shah, M. Syed, N. Anwar, O. Babur, M. Blinov, E. Brauner, D. Corwin, S. Donaldson, F. Gibbons, R. Goldberg, R. Hornbeck, A. Luna, P. Murray-Rust, E. Neumann, O. Reubenacker, M. Samwald, M. Van Iersel, S. Wimalaratne, K. Allen, B. Braun, M. Whirl-Carrillo, K. H. Cheung, Kam D. Dahlquist, A. Finney, M. Gillespie, E. Glass, L. Gong, M. Honig, O. Hubaut, D. Kane, S. Krupa, M. Kutmon, J. Leonard, D. Marks, D. Merberg, V. Petri, A. Pico, D. Ravenscroft, L. Ren, N. Shah, M. Sunshine, R. Tang, R. Whaley, S. Letovksi, K. H. Buetow, A. Rzhetsky, V. Schachter, B. S. Sobral, U. Dogrusoz, S. Mcweeney, M. Aladjem, E. Birney, J. Collado-Vides, S. Goto, M. Hucka, N. Le Novère, N. Maltsev, A. Pandey, P. Thomas, E. Wingender, P. D. Karp, C. Sander, G. D. Bader
The Biopax Community Standard For Pathway Data Sharing, E. Demir, M. P. Cary, S. Paley, K. Fukuda, C. Lemer, I. Vastrik, G. Wu, P. D’Eustachio, C. Schaefer, J. Luciano, F. Schacherer, I. Martinez-Flores, Z. Hu, V. Jimenez-Jacinto, G. Joshi-Tope, K. Kandasamy, A. C. Lopez-Fuentes, H. Mi, E. Pichler, I. Rodchenkov, A. Splendiani, S. Tkachev, J. Zucker, G. Gopinath, H. Rajasimha, R. Ramakrishnan, I. Shah, M. Syed, N. Anwar, O. Babur, M. Blinov, E. Brauner, D. Corwin, S. Donaldson, F. Gibbons, R. Goldberg, R. Hornbeck, A. Luna, P. Murray-Rust, E. Neumann, O. Reubenacker, M. Samwald, M. Van Iersel, S. Wimalaratne, K. Allen, B. Braun, M. Whirl-Carrillo, K. H. Cheung, Kam D. Dahlquist, A. Finney, M. Gillespie, E. Glass, L. Gong, M. Honig, O. Hubaut, D. Kane, S. Krupa, M. Kutmon, J. Leonard, D. Marks, D. Merberg, V. Petri, A. Pico, D. Ravenscroft, L. Ren, N. Shah, M. Sunshine, R. Tang, R. Whaley, S. Letovksi, K. H. Buetow, A. Rzhetsky, V. Schachter, B. S. Sobral, U. Dogrusoz, S. Mcweeney, M. Aladjem, E. Birney, J. Collado-Vides, S. Goto, M. Hucka, N. Le Novère, N. Maltsev, A. Pandey, P. Thomas, E. Wingender, P. D. Karp, C. Sander, G. D. Bader
Biology Faculty Works
Biological Pathway Exchange (BioPAX) is a standard language to represent biological pathways at the molecular and cellular level and to facilitate the exchange of pathway data. The rapid growth of the volume of pathway data has spurred the development of databases and computational tools to aid interpretation; however, use of these data is hampered by the current fragmentation of pathway information across many databases with incompatible formats. BioPAX, which was created through a community process, solves this problem by making pathway data substantially easier to collect, index, interpret and share. BioPAX can represent metabolic and signaling pathways, molecular and genetic …
Bioluminescent Escherichia Coli Strains For The Quantitative Detection Of Phosphate And Ammonia In Coastal And Suburban Watersheds, Cristina V. Cardemil , '01, D. R. Smulski, R. A. Larossa, Amy Cheng Vollmer
Bioluminescent Escherichia Coli Strains For The Quantitative Detection Of Phosphate And Ammonia In Coastal And Suburban Watersheds, Cristina V. Cardemil , '01, D. R. Smulski, R. A. Larossa, Amy Cheng Vollmer
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Accumulation of phosphate and ammonia in estuarine systems and subsequent dinoflagellate and algal blooms has been implicated in fish kills and in health risks for fishermen. Analytic chemistry kits are used to measure phosphate and ammonia levels in water samples, but their sensitivity is limited due to specificity for inorganic forms of these moieties. An Escherichia coli bioluminescent reporter system measured the bioavailability of inorganic nutrients through fusion of E. coli promoters (phoA or glnAp2) to the luxCDABE operon of Vibrio fischeri carried either on the chromosome or on a multicopy plasmid vector, resulting in emission of light in response …
Pharmacological And Genetic Reversal Of Age-Dependent Cognitive Deficits Attributable To Decreased Presenilin Function, S. M.J. Mcbride, C. H. Choi, B. P. Schoenfeld, A. J. Bell, D. A. Liebelt, D. Ferreiro, R. J. Choi, P. Hinchey, M. Kollaros, A. M. Terlizzi, N. J. Ferrick, E. Koenigsberg, R. L. Rudominer, A. Sumida, S. Chiorean, Kathleen King Siwicki, H. T. Nguyen, M. E. Fortini, T. V. Mcdonald, T. A. Jongens
Pharmacological And Genetic Reversal Of Age-Dependent Cognitive Deficits Attributable To Decreased Presenilin Function, S. M.J. Mcbride, C. H. Choi, B. P. Schoenfeld, A. J. Bell, D. A. Liebelt, D. Ferreiro, R. J. Choi, P. Hinchey, M. Kollaros, A. M. Terlizzi, N. J. Ferrick, E. Koenigsberg, R. L. Rudominer, A. Sumida, S. Chiorean, Kathleen King Siwicki, H. T. Nguyen, M. E. Fortini, T. V. Mcdonald, T. A. Jongens
Biology Faculty Works
Alzheimer's disease (AD) is the leading cause of cognitive loss and neurodegeneration in the developed world. Although its genetic and environmental causes are not generally known, familial forms of the disease (FAD) are attributable to mutations in a single copy of the Presenilin (PS) and amyloid precursor protein genes. The dominant inheritance pattern of FAD indicates that it may be attributable to gain or change of function mutations. Studies of FAD-linked forms of presenilin (psn) in model organisms, however, indicate that they are loss of function, leading to the possibility that a reduction in PS activity might contribute to FAD …
Candidate Genes For Chromosomes 6 And 10: Quantitative Trait Loci For Age-Related Retinal Degeneration In Mice, D.G. Ogando, Kam D. Dahlquist, M. Alizadeh, K. Kunchithapautham, J. Li, N. Yu, M.M. Lavail, B. Rohrer, D. Vollrath, M. Danciger
Candidate Genes For Chromosomes 6 And 10: Quantitative Trait Loci For Age-Related Retinal Degeneration In Mice, D.G. Ogando, Kam D. Dahlquist, M. Alizadeh, K. Kunchithapautham, J. Li, N. Yu, M.M. Lavail, B. Rohrer, D. Vollrath, M. Danciger
Biology Faculty Works
Purpose: In a previous study, several quantitative trait loci (QTL) that influence age-related degeneration (ageRD) were identified in a cross between the albino strains B6(Cg)-Tyr(c-2J)/J (B6a) and BALB/cByJ (C). The Chromosome (Chr) 6 and Chr 10 QTL were the strongest and most highly significant loci and both involved B6a protective alleles. The QTL were responsible for 21% and 9% of the variance in phenotypes, respectively. We focused on these two QTL to identify candidate genes. Methods: DNA microarrays were used for the two mouse strains at four and eight months of age to identify genes that are differentially regulated and …
Proteomic And Physiological Responses Of Leopard Sharks (Triakis Semifasciata) To Salinity Change, W. Wesley Dowd, B. N. Harris, J.J. Chech Jr, D. Kültz
Proteomic And Physiological Responses Of Leopard Sharks (Triakis Semifasciata) To Salinity Change, W. Wesley Dowd, B. N. Harris, J.J. Chech Jr, D. Kültz
Biology Faculty Works
Partially euryhaline elasmobranchs may tolerate physiologically challenging, variable salinity conditions in estuaries as a tradeoff to reduce predation risk or to gain access to abundant food resources. To further understand these trade-offs and to evaluate the underlying mechanisms, we examined the responses of juvenile leopard sharks to salinity changes using a suite of measurements at multiple organizational levels: gill and rectal gland proteomes (using 2-D gel electrophoresis and tandem mass spectrometry), tissue biochemistry (Na+/K+-ATPase, caspase 3/7 and chymotrypsin-like proteasome activities), organismal physiology (hematology, plasma composition, muscle moisture) and individual behavior. Our proteomics results reveal coordinated molecular responses to low salinity …
Erratum: The Biopax Community Standard For Pathway Data Sharing, Kam D. Dahlquist
Erratum: The Biopax Community Standard For Pathway Data Sharing, Kam D. Dahlquist
Biology Faculty Works
No abstract provided.
Substrate Specificity Of The Tim22 Mitochondrial Import Pathway Revealed With Small Molecule Inhibitor Of Protein Translocation, Deepa V. Dabir
Substrate Specificity Of The Tim22 Mitochondrial Import Pathway Revealed With Small Molecule Inhibitor Of Protein Translocation, Deepa V. Dabir
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The TIM22 protein import pathway mediates the import of membrane proteins into the mitochondrial inner membrane and consists of two intermembrane space chaperone complexes, the Tim9-Tim10 and Tim8-Tim13 complexes. To facilitate mechanistic studies, we developed a chemical-genetic approach to identify small molecule agonists that caused lethality to a tim10-1 yeast mutant at the permissive temperature. One molecule, MitoBloCK-1, attenuated the import of the carrier proteins including the ADP/ATP and phosphate carriers, but not proteins that used the TIM23 or the Mia40/ Erv1 translocation pathways. MitoBloCK-1 impeded binding of the Tim9-Tim10 complex to the substrate during an early stage of translocation, …
A Comparison Of Tooth Wear And Breakage In Rancho La Brea Sabertooth Cats And Dire Wolves Across Time, Wendy J. Binder
A Comparison Of Tooth Wear And Breakage In Rancho La Brea Sabertooth Cats And Dire Wolves Across Time, Wendy J. Binder
Biology Faculty Works
The carnivores preserved in the late Pleistocene Rancho La Brea tar seep deposits display a remarkably high incidence of teeth broken in life as compared with modern species. In a previous study examining tooth breakage, tooth wear and individual age of Canis dirus over different periods in time, we found that Pit 13 C. dirus (about 15,000 years before present [ybp]) exhibited heavier tooth wear and fractured their teeth about three times more often than those of the younger Pit 61/67 (about 12,000 ybp). No significant difference was found in the age structure of the population, suggesting this came from …
Chinmo Is A Functional Effector Of The Jak/Stat Pathway That Regulates Eye Development, Tumor Formation, And Stem Cell Self-Renewal In Drosophila, Cory J. Evans
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The Drosophila STAT transcription factor Stat92E regulates diverse functions, including organ development and stem cell self-renewal. However, the Stat92E functional effectors that mediate these processes are largely unknown. Here we show that chinmo is a cell-autonomous, downstream mediator of Stat92E that shares numerous functions with this protein. Loss of either gene results in malformed eyes and head capsules due to defects in eye progenitor cells. Hyperactivation of Stat92E or misexpression of Chinmo results in blood cell tumors. Both proteins are expressed in germline (GSCs) and cyst stem cells (CySCs) in the testis. While Stat92E is required for the self-renewal of …