PlayMais 3-D DNA Model
PlayMais 3-D DNA Model

... DNA-encoded instructions allow the cell to build the main components of its cellular environment: proteins. To do so, the first step consists in a process called transcription (Figure 5A - D). The RNA-polymerase transcribes the gene sequence into a messenger molecule called ribonucleic acid, RNA (Fi ...
Student Guide
Student Guide

... How many bands of DNA do you see in Jillian’s sample? The bands are different sized pieces of DNA, so how many different sized pieces of PTC DNA does Jillian have? Based on what you know about genetics, what conclusions can be made from this data? Since Jillian is a nontaster, and her mom and dad ar ...
Identification of the target DNA sequence and characterization of
Identification of the target DNA sequence and characterization of

... Though Williams and Manning demonstrated that a 710bp fragment spanning the predicted promoter in the 5 region of hlyA in conjunction with HlyU Vc increased chloramphenicol acetyl transferase activity and HlyA production in Escherichia coli (16), no further findings regarding the DNA-HlyU Vc intera ...
Aipotu Part III: Molecular Biology
Aipotu Part III: Molecular Biology

... this sequence and proceeds to the this sequence. right. therefore, a gene would look like this: 5’-TATAAXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGGGGG-3’ ...
bchm6280_16_ex1
bchm6280_16_ex1

... Using this information, answer the following questions in the form of a table that lists the accession numbers for the coding, non-coding, model and reference transcript/proteins. Attach the PDF you downloaded from this section. 1. How many Refseq protein-coding transcripts (with prefex NM) are list ...
Molecular genetics in Streptococcus thermophilus
Molecular genetics in Streptococcus thermophilus

Acidaminococcus fermentans type strain (VR4T)
Acidaminococcus fermentans type strain (VR4T)

... of the Genomic Encyclopedia of Bacteria and Archaea project [33]. The genome project is deposited in the Genomes OnLine Database [14] and the complete genome sequence in GenBank. Sequencing, finishing and annotation were performed by the DOE Joint Genome Institute (JGI). A summary of the project inf ...
PostScript - Theoretical Biochemistry Group
PostScript - Theoretical Biochemistry Group

... single, uncompensated, point mutations can give rise to large conformational changes. Compensatory mutations are indeed frequently observed in phylogenetic data (Dixon and Hillis 1993). It is therefore worth investigating whether a mutation not affecting the function of the encoded protein would als ...
Molecular Biology of the Cell
Molecular Biology of the Cell

... Chromosomes Contain Long Strings of Genes Two sets of chromosomes: one from father and one from mother “Chromosome painting” technique by DNA hybridization can distinguish each pair of chromosomes. ...
Mutation Notes
Mutation Notes

... 4. Inversions – occurs when part of a chromosome breaks off, turns around, and reattaches in the reverse order. ...
Practical theory (15-20 min) A phylogeny is the representation of the
Practical theory (15-20 min) A phylogeny is the representation of the

... 6. Using “seq4.fasta” and “seq5.fasta”, find their orthologs in UniProt in Mus musculus, Gallus gallus, Xenopus laevis and Ornithorhynchus anatinus (platypus). Put all of the sequences in one file and built a phylogenetic tree using Trex. Use the radial representation of the tree. What do you observ ...
Prof. Kamakaka`s Lecture 11 Notes
Prof. Kamakaka`s Lecture 11 Notes

Heredity + Nucleic Acids
Heredity + Nucleic Acids

... Discovering how nucleic acids store genetic information To follow the historical pathway that led to our understanding of how heredity works, we have to start back at the cell. As it became more firmly established that all organisms were composed of cells, and all cells were derived from pre-existi ...
Lecture#29 - RFLP-2 - Locating Genes in Large Genomes Using
Lecture#29 - RFLP-2 - Locating Genes in Large Genomes Using

... How are RFLPs used to find disease loci (mutants)? 1. RFLPs can be used as alleles in pedigree analysis. 2. RFLPs can be directly associated with the sequence changes that cause a normal gene to be a mutant allele (e.g. sickle-cell anemia)(rare situation). 3. In most cases, an RFLP is used only as a ...
18 DetailLectOut 2012
18 DetailLectOut 2012

... Like unicellular organisms, the tens of thousands of genes in the cells of multicellular eukaryotes are continuously turned on and off in response to signals from their internal and external environments. ...
Genetics, evOlutionary psychology
Genetics, evOlutionary psychology

... Chromosomes: threadlike structures made of DNA molecules that contain genes Humans normally have 46 chromosomes, 23 from the mother and 23 from the father. Each chromosome is a coil of DNA (deoxyribonucleic acid) The DNA contain small segments called genes Humans have approximately 30,000 genes Gene ...
Biotechnology Australia
Biotechnology Australia

Structural Location of Disease-associated Single
Structural Location of Disease-associated Single

... nsSNPs in shallow depressed or convex regions also cause disease - probably because these can also be binding pockets nsSNPs unlikely to be buried in protein – why? ...
Molecular characterisation of RecQ homologues in Arabidopsis
Molecular characterisation of RecQ homologues in Arabidopsis

... TBLASTN with the conserved helicase motives of the Bloom and the Werner syndrome protein sequences of H.sapiens resulted in six significant hits with genomic Arabidopsis sequences. Starting from the conserved domain, partial cDNAs were amplified by RT–PCR followed by RACE analysis to establish the c ...
PCR of GFP - the BIOTECH Project
PCR of GFP - the BIOTECH Project

Gene Section IGK (Immunoglobulin Kappa) Atlas of Genetics and Cytogenetics
Gene Section IGK (Immunoglobulin Kappa) Atlas of Genetics and Cytogenetics

... immunoglobulin kappa chains. They result from the recombination (or rearrangement), at the DNA level, of two genes: IGKV and IGKJ, with deletion of the intermediary DNA to create a rearranged IGKV-J gene. The rearranged IGKV-J gene is transcribed with the IGKC gene and translated into an immunoglobu ...
Snork Activity
Snork Activity

... type. Genes consist of DNA molecules that code for the proteins our cells make. The sequence of nucleotides (and therefore the sequence of bases) in DNA determines the sequence of amino acids in proteins. The sequence of DNA is the most important part of determining what proteins are synthesized.  ...
SEGMENTAL VARIATION
SEGMENTAL VARIATION

... • Can’t detect translocations and inversions • Resolution still limited by number of probes on the array—typical resolution about 100 kb • Still a fair amount of variability in results depending on exactly which array is used ...
video slide
video slide

... Concept 21.4: Multicellular eukaryotes have much noncoding DNA and many multigene families • The bulk of most eukaryotic genomes consists of noncoding DNA sequences, often described in the past as “junk DNA” • Much evidence indicates that noncoding DNA plays important roles in the cell • For exampl ...
A comprehensive computational model of facilitated diffusion in
A comprehensive computational model of facilitated diffusion in

... facilitated diffusion mechanism. One approach to address these questions consists of building a computational tool able to simulate the relevant molecules in a cell and the entire DNA sequence. This type of approach can address several questions, e.g. how crowding can influence the search process at ...

Non-coding DNA