BISC 219/F10: Assignment 1 Lab1: Difference between revisions
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=='''Lab 1 Assignment: Entry Assessment; Defining your Experimental Question and Summarizing your Experimental Design; Diagramming your Crosses; Submitting your data for instructor check (12.5 pts)'''== | =='''Lab 1 Assignment: Entry Assessment; Defining your Experimental Question and Summarizing your Experimental Design; Diagramming your Crosses; Submitting your data for instructor check (12.5 pts)'''== | ||
Part 1: If you haven't already done so, please make sure that you have completed your on-line Entry Assessment on Survey Monkey at the link provided on the course Lab Conference in First Class. Please complete this entry assessment ''before'' the second lecture and before you have started reading your textbook or the background information found in the lab wiki. You will be asked to take this assessment again at the end of the course. To reward you for completing it twice, we will grant you 5 points (2.5pts for each completed assessment). This knowledge test will not be graded, nor will you be penalize in any way for incorrect answers. Rather, it is designed to help us assess how well Wellesley's genetics course teaches core genetics concepts compared to other institutions and it will help us know how to improve BISC219 for future students. Thank you for your valuable input. <BR><BR> | Part 1: If you haven't already done so, please make sure that you have completed your on-line Entry Assessment on Survey Monkey at the link provided on the course Lab Conference in First Class. Please complete this entry assessment ''before'' the second lecture and before you have started reading your textbook or the background information found in the lab wiki. You will be asked to take this assessment again at the end of the course. To reward you for completing it twice, we will grant you 5 points (2.5pts for each completed assessment). '''Please email the phrase found when you submit the completed survey to your instructor to receive credit.''' This knowledge test will not be graded, nor will you be penalize in any way for incorrect answers. Rather, it is designed to help us assess how well Wellesley's genetics course teaches core genetics concepts compared to other institutions and it will help us know how to improve BISC219 for future students. Thank you for your valuable input. <BR><BR> | ||
BISC219, Genetics Lab, models investigative science. Although we | BISC219, Genetics Lab, models investigative science. Although we cannot provide individualized materials for you to design experiments to investigate questions you come up with on your own because of cost, time constraints, and your inexperience in using some of the tools; nevertheless, we want you to learn first hand this semseter how scientists use genetic principles and techniques to answer basic and nuanced questions about gene structure and function and how that knowledge can be applied more broadly and communicated to the scientific community. Although your instructors have defined the questions and designed the experiments that will be used to address those questions, you must be able to, at any point in an investigation, describe what you are doing (summary of the experimental design and where you are in the process of completing the experiments), why you are doing it (experimental question(s) and goals), and what it means if x happens versus y when you collect your data (have a hypothesis formulated from basic genetic principles or previous studies). Significant and continual outside study is required for those ambitions to be realized.<BR><BR> | ||
Part 2: Read all of the background information on ''C. elegans'' found in [[BISC_219/F10:_Worm_Info]] and then read all of Series 1 (Lab1 and the Completion of Autosomal or Sex Linked Genes? in Lab 2) found at [[BISC_219/F10:_Gene_Linkage]] & [[BISC_219/F10:_Lab_2]].<BR><BR> | Part 2: Read all of the background information on ''C. elegans'' found in [[BISC_219/F10:_Worm_Info]] and then read all of Series 1 (Lab1 and the Completion of Autosomal or Sex Linked Genes? in Lab 2) found at [[BISC_219/F10:_Gene_Linkage]] & [[BISC_219/F10:_Lab_2]].<BR><BR> | ||
Revision as of 11:16, 30 August 2010
Lab 1 Assignment: Entry Assessment; Defining your Experimental Question and Summarizing your Experimental Design; Diagramming your Crosses; Submitting your data for instructor check (12.5 pts)
Part 1: If you haven't already done so, please make sure that you have completed your on-line Entry Assessment on Survey Monkey at the link provided on the course Lab Conference in First Class. Please complete this entry assessment before the second lecture and before you have started reading your textbook or the background information found in the lab wiki. You will be asked to take this assessment again at the end of the course. To reward you for completing it twice, we will grant you 5 points (2.5pts for each completed assessment). Please email the phrase found when you submit the completed survey to your instructor to receive credit. This knowledge test will not be graded, nor will you be penalize in any way for incorrect answers. Rather, it is designed to help us assess how well Wellesley's genetics course teaches core genetics concepts compared to other institutions and it will help us know how to improve BISC219 for future students. Thank you for your valuable input.
BISC219, Genetics Lab, models investigative science. Although we cannot provide individualized materials for you to design experiments to investigate questions you come up with on your own because of cost, time constraints, and your inexperience in using some of the tools; nevertheless, we want you to learn first hand this semseter how scientists use genetic principles and techniques to answer basic and nuanced questions about gene structure and function and how that knowledge can be applied more broadly and communicated to the scientific community. Although your instructors have defined the questions and designed the experiments that will be used to address those questions, you must be able to, at any point in an investigation, describe what you are doing (summary of the experimental design and where you are in the process of completing the experiments), why you are doing it (experimental question(s) and goals), and what it means if x happens versus y when you collect your data (have a hypothesis formulated from basic genetic principles or previous studies). Significant and continual outside study is required for those ambitions to be realized.
Part 2: Read all of the background information on C. elegans found in BISC_219/F10:_Worm_Info and then read all of Series 1 (Lab1 and the Completion of Autosomal or Sex Linked Genes? in Lab 2) found at BISC_219/F10:_Gene_Linkage & BISC_219/F10:_Lab_2.
Part 3: Submit the preliminary data for your first crosses to your instructor by email on the 3rd day after Lab 1 (so your instructor will know if your crosses worked)
Part 4: At the beginning of Lab 2 (or before if you submit your work electronically), please submit a concise statement of the experimental question you are investigating in Lab 1 and completing in Lab 2. Also include a brief, but clear and thorough summary of how you will investigate this question (general methods description and flow diagram of each cross, using standard genetic nomenclature), and explain how and why you will be able to interpret your data and answer your experimental question(s).
Grading Rubric
Assignment 1 Lab 1– 12.5 points
| At or Above Standard | Below Standard | Possible Points |
Points
Earned | |
|---|---|---|---|---|
| Entry Survey | Completed BISC219 Genetics Entry Survey before second lecture | Did not complete Genetics Entry Survey | 2.5 | __/2.5 |
| Preliminary Data | Submitted preliminary cross results to instructor by email before the 4th Day after Lab 1 | Did not email preliminary cross results to instructor on Day 3 after Lab 1 | 1 | __/1 |
| Experimental Question | Constructed a clear, concise, and accurate description of the experimental question(s) under investigation | Experimental question(s) missing, inaccurate, partially accurate; contains too much tangential information or is too simplified | 1 | __/1 |
| Diagram of Crosses | All possible cross outcomes (both mutations autosomal and linked; both mutations autosomal and unlinkded; both mutations X linked; Dpy mutation X linked and Unc mutation autosomal; Unc mutation X linked and Dpy mutation autosomal) diagrammed accurately using proper nomenclature and giving predicted ratios of progeny genotypically and phenotypically. | One or more possible cross outcomes missing; one or more are inaccurate, omit information, or do not include accurate predicted ratios of progeny for genotype and phenotype. | 4 | __/4 |
| Narrative description of Experimental Design |
Constructed a clear, concise, and accurate description of the experimental design | Experimental design description missing, inaccurate, partially accurate; contains too much tangential information or is too simplified | 1 | __/1 |
| Narrative description of Data Analysis |
Constructed a clear, concise, and accurate description of how you will use the phenotypic ratios of progeny from your crosses to determine whether or not the two mutations observed in strains MB1, MB2, and MB3 are autosomal or sex-linked and, if both autosomal, determine if the mutations are in the same linkage group or sort independently. | Data Analysis(s) description missing, inaccurate, partially accurate; contains too much tangential information, or is too simplified. | 3 | __/3 |
| Total | 12.5 | __/12.5 |
