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Day DateReadingTopic T 9/2 pp.216-231 (Ch. 6) C. elegans, model systems, and molecular genetics Watch three Audio/Video handouts: 1A), 1B), and 1C Th9/4Ch. 1An introduction to developmental biology T9/9 QUIZ 1 (covers A/V Handouts 1A, 1B, and 1C) More introduction Watch two Audio/Video handouts: Review of transcription regulation, Parts 1 and 2 Th9/11Ch. 3Vertebrate life cycles T9/16 QUIZ 2(covers A/V Handouts 2A and 2B) Vertebrate axes and germ layers Th9/18 CH. 4Vertebrate axial patterning T9/23More vertebrate body plan Th9/25Ch. 5Early patterning of vertebrate nervous systems T9/30Ch. 2Molecular development of Drosophila Th10/2 More molecular development of Drosophila T10/7EXAM 1Chapters 1, 3, 4, and pp216-231 Th10/9Ch. 7Plant development On Thursday, 10/9, Please bring a copy of the primary research article you have selected (or more than one if you haven’t decided) plus your notes on the article.
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Chapters #5 and #2
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Box 4A wild-type fruit fly antennapedia mutant
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The Hox gene family are examples of homeotic genes. Homeotic genes are genes that when mutant cause a change in the spatial position of structures (change in address). Box 4A wild-type fruit fly antennapedia mutant
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The Hox gene family are examples of homeotic genes. Homeotic genes are genes that when mutant cause a change in the spatial position of structures (change in address). Box 4A
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The Hox gene family are examples of homeotic genes. The Hox gene products give the positional address along the Anterior-Posterior (A/P) axis in all animals. Box 4A
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BIO305 Exam #1 Distribution 98 * A 97 * A 96 95 94 ** A 93 92 91 90 89 88 *** A/A- 87 * A/A- 86 85 84 *** B+ 83 82 81 ** B+/B 80 79 ** B 78 77 76 75 74 ** B- 73 72 * B-/C+ 71 65 * C- 62 * C- 60 * C- 57 * D+ 53 * D 43 * F 28 * F
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