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- Evolution (10)
- Nature of Science (7)
- Course Information (4)
- Genomics: Past & Future (3)
- Research Project (3)
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- Sequence Alignments (3)
- Faculty Publications & Research (2)
- Publications & Research (2)
- Sequencing & Genome Mining (2)
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- Considerations in Ethics (1)
- Doctoral Dissertations and Projects (1)
- FIU Electronic Theses and Dissertations (1)
- Interdisciplinary Journal of Problem-Based Learning (1)
- Introduction to NCBI (1)
- Jeong Choe (1)
- Journal of Science Education for Students with Disabilities (1)
- Primer Design (1)
- Purdue University Press Books (1)
- The STEAM Journal (1)
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Articles 1 - 30 of 48
Full-Text Articles in Education
A Predictive Correlation Study: What Human Capital And Demographic Factors Relate To Credential Completion For Stem Students?, Rick Jenkins
A Predictive Correlation Study: What Human Capital And Demographic Factors Relate To Credential Completion For Stem Students?, Rick Jenkins
Doctoral Dissertations and Projects
This dissertation examines the educational attainment of college STEM (Science, Technology, Engineering, and Mathematics) students in Arkansas in an attempt to identify the human capital factors that predict completion of a STEM degree or certificate. Students seeking STEM credentials (having STEM majors) were identified using the state higher education database from the state of Arkansas, including public four-year universities and two-year colleges. STEM students from 32 colleges and universities were included from three cohorts and tracked for six academic years. The criterion variable was STEM credential earned, whether or not the student earned any STEM undergraduate credentials. The predictor human …
What I Taught My Stem Instructor About Teaching: What A Deaf Student Hears That Others Cannot, Annemarie Ross, Randy K. Yerrick
What I Taught My Stem Instructor About Teaching: What A Deaf Student Hears That Others Cannot, Annemarie Ross, Randy K. Yerrick
Journal of Science Education for Students with Disabilities
Overall, science teaching at the university level has remained in a relatively static state. There is much research and debate among university faculty regarding the most effective methods of teaching science. But it remains largely rhetoric. The traditional lecture model in STEM higher education is limping along in its march toward inclusion and equity. The NGSS and Common Core reform efforts do little to help university science teachers to change their orientation from largely lecture-driven practice with laboratory supplements. While it is impossible to address all diverse student groups, the need for accommodations tend to be overlooked. As a Deaf …
Transforming Institutions: Undergraduate Stem Education For The 21st Century, Gabriela C. Weaver, Wilella D. Burgess, Amy L. Childress, Linda Slakey
Transforming Institutions: Undergraduate Stem Education For The 21st Century, Gabriela C. Weaver, Wilella D. Burgess, Amy L. Childress, Linda Slakey
Purdue University Press Books
Higher education is coming under increasing scrutiny, both publically and within academia, with respect to its ability to appropriately prepare students for the careers that will make them competitive in the 21st-century workplace. At the same time, there is a growing awareness that many global issues will require creative and critical thinking deeply rooted in the technical STEM (science, technology, engineering, and mathematics) disciplines. However, the existing and ingrained structures of higher education, particularly in the STEM fields, are not set up to provide students with extensive skill development in communication, teamwork, and divergent thinking, which is needed …
Evolution Practice 2, Imsa Biology Team
Genetic Drift Simulation, Imsa Biology Team
Genetic Drift Simulation, Imsa Biology Team
Evolution
Genetic drift can be defined as a random fluctuation in gene frequency. More specifically, it tells us that different alleles may increase or decrease in a population in proportion to one another over time, just by chance, rather than due to any fitness advantage.
Mechanisms And Speciation 2: Evolution On The Web Questions, Imsa Biology Team
Mechanisms And Speciation 2: Evolution On The Web Questions, Imsa Biology Team
Evolution
The website below, sponsored by UC Berkeley, is a reliable source for information about evolution. This will give you the introductory information about the mechanisms of Evolution.
Mechanisms And Speciation 1: The Modern Synthesis, Imsa Biology Team
Mechanisms And Speciation 1: The Modern Synthesis, Imsa Biology Team
Evolution
The Modern Synthesis or Synthetic Theory of Evolution is an explanation of evolution that is based on modern genetic principles. According to the Modern Synthesis (a.k.a. Neo-Darwinism):
Evidence Of Evolution 2: Definitions For Evolutionary Evidence Lab, Imsa Biology Team
Evidence Of Evolution 2: Definitions For Evolutionary Evidence Lab, Imsa Biology Team
Evolution
This lab activity was designed to provide you with opportunities to make inferences and draw conclusions about evolution and the common ancestry of various animals based on their anatomical characteristics and comparative anatomy. You will be given tasks to accomplish or questions to answer at each of 11 stations. In order to do this successfully, you must make careful observations of the specimens on display. You must also know the following definitions before beginning this activity:
Evolution Practice 1, Imsa Biology Team
Evolution Practice 1, Imsa Biology Team
Evolution
Answer the following questions using information from the handouts, and examples from the LAB
Evidence Of Evolution 1: Structures, Imsa Biology Team
Evidence Of Evolution 1: Structures, Imsa Biology Team
Evolution
In order to investigate linage, evolutionary history, and common ancestry, you need to be familiar with the following structures.
Essential Questions, Imsa Biology Team
Essential Questions, Imsa Biology Team
Evolution
In order to understand the current state of biological life and how it has changed over time, the following questions must be addressed:
Evidence Of Evolution 3: Evolutionary Evidence And Inferences Lab: A Discussion Guide, Imsa Biology Team
Evidence Of Evolution 3: Evolutionary Evidence And Inferences Lab: A Discussion Guide, Imsa Biology Team
Evolution
This lab activity was designed to provide you with opportunities to make inferences and draw conclusions about evolution and the common ancestry of various animals based on their anatomical characteristics and comparative anatomy. You will be given tasks to accomplish or questions to answer at each of 11 stations. In order to do this successfully, you must make careful observations of the specimens on display.
Sequencing Techniques: A Comparison Assignment, Sarah O'Leary-Driscoll
Sequencing Techniques: A Comparison Assignment, Sarah O'Leary-Driscoll
Sequencing & Genome Mining
With your partner, create some sort of visual (table, map, chart, other, ask me!) that compares the main types of sequencing that we discussed, as well as two of the techniques considered 'next generation'.
Discussion Questions: Genome Mining, Sarah O'Leary-Driscoll
Discussion Questions: Genome Mining, Sarah O'Leary-Driscoll
Sequencing & Genome Mining
No abstract provided.
Alignment Information, Sarah O'Leary-Driscoll
Alignment Information, Sarah O'Leary-Driscoll
Sequence Alignments
Pairwise DNA alignment is frequently used to identify similar regions that will show how two sequences have functional or structural similarities. It can also be used to show how exons and introns change between different sequences and whether they have an effect on the final structure of the RNA after the DNA is processed within a cell.
Alignment Outline, Sarah O'Leary-Driscoll
2: Sequence Alignment Practice Activity, Sarah O'Leary-Driscoll
2: Sequence Alignment Practice Activity, Sarah O'Leary-Driscoll
Sequence Alignments
Now that you have learned how to do the four basic sequence alignments (Pairwise and Multiple for both nucleotide and protein sequences) select a gene/protein, it may be one that you've used before, and run each of these alignments.
Pt. 2: Presentation / Paper Guidelines, Sarah O'Leary-Driscoll
Pt. 2: Presentation / Paper Guidelines, Sarah O'Leary-Driscoll
Research Project
The presentations for your project should follow the same format that the paper would, but in a much more abbreviated form, aim for 5-7 minutes.
Project Guidelines, Sarah O'Leary-Driscoll
Pt. 1: Research Question & Background, Sarah O'Leary-Driscoll
Pt. 1: Research Question & Background, Sarah O'Leary-Driscoll
Research Project
No abstract provided.
Primer Design Activity, Sarah O'Leary-Driscoll
Obtaining Genomic Sequence Practice, Sarah O'Leary-Driscoll
Obtaining Genomic Sequence Practice, Sarah O'Leary-Driscoll
Introduction to NCBI
No abstract provided.
Dna Timeline And Poster Project, Sarah O'Leary-Driscoll
Dna Timeline And Poster Project, Sarah O'Leary-Driscoll
Genomics: Past & Future
The DNA timeline goes through many of the major discoveries that have driven our understanding of genetics since Mendel. Pick two scientists and create a PowerPoint slide poster (to be printed out on regular printer sized paper) that covers the following:
3: Genomics: Past & Future Bibliography, Sarah O'Leary-Driscoll
3: Genomics: Past & Future Bibliography, Sarah O'Leary-Driscoll
Genomics: Past & Future
No abstract provided.
Future Of Genomics: Presentations, Sarah O'Leary-Driscoll
Future Of Genomics: Presentations, Sarah O'Leary-Driscoll
Genomics: Past & Future
In his testimony to a House of Representatives sub-committee on health, director of the National Human Genome Research Institute, Francis S. Collins, said that the future of genomics had three main focal points:
"Genomics to Biology: The human genome sequence provides foundational information that now will allow development of a comprehensive catalog of all of the genome's components, determination of the function of all human genes, and deciphering of how genes and proteins work together in pathways and networks.
Genomics to Health: Completion of the human genome sequence offers a unique opportunity to understand the role of genetic factors in …
Database/Resource Acronyms, Sarah O'Leary-Driscoll
Database/Resource Acronyms, Sarah O'Leary-Driscoll
Course Information
No abstract provided.
What Is Bioinformatics?, Sarah O'Leary-Driscoll
What Is Bioinformatics?, Sarah O'Leary-Driscoll
Course Information
Bioinformatics has evolved into a full-fledged multidisciplinary subject that integrates developments in information and computer technology as applied to Biotechnology and Biological Sciences. Bioinformatics uses computer software tools for database creation, data management, data warehousing, data mining and global communication networking. Bioinformatics is the recording, annotation, storage, analysis, and searching/retrieval of nucleic acid sequence (genes and RNAs), protein sequence and structural information. This includes databases of the sequences and structural information as well methods to access, search, visualize and retrieve the information. Bioinformatics concern the creation and maintenance of databases of biological information whereby researchers can both access existing information …
Comprehensive Course Syllabus, Sarah O'Leary-Driscoll
Comprehensive Course Syllabus, Sarah O'Leary-Driscoll
Course Information
The bioinformatics seminar is focused on developing an understanding of the principles behind genomic analyses, developing skills using the different available bioinformatics programs, and becoming aware of the past developments and current research avenues that are benefited by these types of analyses.
Glossary Of Bioinformatics Terms, National Human Genome Research Institute
Glossary Of Bioinformatics Terms, National Human Genome Research Institute
Course Information
No abstract provided.
Readings On Current Biology: Bibliography, Imsa Biology Team
Readings On Current Biology: Bibliography, Imsa Biology Team
Nature of Science
No abstract provided.