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Skip to Search Results- 11Wishart, D.S.
- 9Wang, J.
- 8University of Alberta, Department of Biological Sciences
- 4Cruz, J.A.
- 4Li, R.
- 4Stothard, P.
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2018-01-01
University of Alberta, Department of Biological Sciences
This image is part of a series displaying different fruit flies with various phenotypes. These flies are seen in Molecular Genetics and Heredity: Biology 207. This image was created as part of the University of Alberta OER image database project in Biological Sciences. Identifier 4000I.
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2018
University of Alberta, Department of Biological Sciences
This image is part of a series displaying different fruit flies with various phenotypes. These flies are seen in Molecular Genetics and Heredity: Biology 207. This image was created as part of the University of Alberta OER image database project in Biological Sciences. Identifier 4000I.
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2018-01-01
University of Alberta, Department of Biological Sciences
This image is part of a series displaying different fruit flies with various phenotypes. These flies are seen in Molecular Genetics and Heredity: Biology 207. This image was created as part of the University of Alberta OER image database project in Biological Sciences. Identifier 4000I.
-
2018-01-01
University of Alberta, Department of Biological Sciences
This image is part of a series displaying different fruit flies with various phenotypes. These flies are seen in Molecular Genetics and Heredity: Biology 207. This image was created as part of the University of Alberta OER image database project in Biological Sciences. Identifier 4000I.
-
2018
University of Alberta, Department of Biological Sciences
This image is part of a series displaying seperating fruit flies into 4 groups based on phenotypic characteristics. Fruit fly experiments are performed in Molecular Genetics and Heredity: Biology 207. This image was created as part of the University of Alberta OER image database project in...
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2018-01-01
University of Alberta, Department of Biological Sciences
This image is part of a series displaying seperating fruit flies into 8 groups based on phenotypic characteristics. Fruit fly experiments are performed in Molecular Genetics and Heredity: Biology 207. This image was created as part of the University of Alberta OER image database project in...
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2018-01-01
University of Alberta, Department of Biological Sciences
This image is part of a series displaying seperating fruit flies into 8 groups based on phenotypic characteristics. Fruit fly experiments are performed in Molecular Genetics and Heredity: Biology 207. This image was created as part of the University of Alberta OER image database project in...
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2008
Li, R., Wang, J., Wong, G.K.S., Zheng, H., Xu, S., Clark, T., Zheng, X., Vang, S.
Background Gene conversion causes a non-reciprocal transfer of genetic information between similar sequences. Gene conversion can both homogenize genes and recruit point mutations thereby shaping the evolution of multigene families. In the rice genome, the large number of duplicated genes...
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2009
Bassett, E., Wishart, D.S., Lu, P., MacDonnell, C., Berjanskii, M., Zhou, J., Liang, J., Zhou, Y., Cruz, J.A., Lin, G., Tang, P.
GeNMR (GEnerate NMR structures) is a web server for rapidly generating accurate 3D protein structures using sequence data, NOE-based distance restraints and/or NMR chemical shifts as input. GeNMR accepts distance restraints in XPLOR or CYANA format as well as chemical shift files in either SHIFTY...
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2006
Wang, W., Li, J., Liu, D., Lu, Z., Zheng, H., Wong, G., Cai, Z., Fan, C., Zhang, J., Vang, S., Long, M., Zhang, G., Wang, J., Shi, J.
Retroposition is widely found to play essential roles in origination of new mammalian and other animal genes. However, the scarcity of retrogenes in plants has led to the assumption that plant genomes rarely evolve new gene duplicates by retroposition, despite abundant retrotransposons in plants...