If you create a yeast mutant so that they only make non-hydrolysable GTP, how will this...

You are working with three mutant strains of yeast. One mutant lacks glyceraldehyde-3-phosphate dehydrogenase, one lacks...

You are working with three mutant strains of yeast. One mutant lacks glyceraldehyde-3-phosphate dehydrogenase, one lacks alcohol dehydrogenase, and the third lacks pyruvate dehydrogenase. One of the three mutant strains above is able to grow on glucose under both anaerobic and aerobic conditions, although it grows somewhat slower than the wild type (normal) strain under aerobic conditions. Which strain is this? Explain your reasoning.

The yeast Saccharomyces cerevisiae can grow as haploid or diploid cells. You have two haploid yeast...

The yeast Saccharomyces cerevisiae can grow as haploid or diploid cells. You have two haploid yeast strains that each carry mutations that make them unable to grow when galactose is the sole available source of energy. One strain has a deletion of the entire region of the genome between the GAL1 and GAL10 genes (DUAS). The other strain carries a mutant allele of GAL2 that produces no functional GAL2 protein. You cross these two strains together to get diploid progeny....

Explain how to: -Make 1/100 dilution of the yeast suspension using normal saline as diluent. -Mix...

Explain how to: -Make 1/100 dilution of the yeast suspension using normal saline as diluent. -Mix equal volumes of yeast and Trypan blue -Load the hemocytometer. If your sample is too dense, dilute your sample some more

You receive a yeast culture of an unknown concentration, so you decide to determine the concentration...

You receive a yeast culture of an unknown concentration, so you decide to determine the concentration by performing a direct count using a counting chamber. You count the number of yeast in seven 1/400 mm2 boxes and get the following results: 5, 8, 19, 8, 4, 3 and 6. a. How many cells per ml are in your unknown sample? (6 points) b.If you diluted your unknown sample 1:100, then 1:20, then 1:2 and then plated 0.2 ml onto a...

You need to make 7.5 mL of a 10% yeast solution in Na-K-PO4 buffer. How many...

You need to make 7.5 mL of a 10% yeast solution in Na-K-PO4 buffer. How many mL of buffer will you need?

PLEASE EXPLAIN YOUR ANSWER COMPLETLY AND CORRECTLY. THANK YOU! Consider a yeast cell which wants to...

PLEASE EXPLAIN YOUR ANSWER COMPLETLY AND CORRECTLY. THANK YOU! Consider a yeast cell which wants to express a 900 bp gene. Assuming this gene has no introns, ignoring any 5’ or 3’ untranslated regions, and assuming a 100 bp poly-A tail, how many nucleotides are required to transcribe this gene? For simplicity’s sake, let’s assume all the nucleotides are ATP. Based on what you know about translation, how many ATPs (or GTPs) would required to translate this protein? Given the...

Can you explain how I can assess mutant phenotypes to determine whether mutations affect regulatory regions...

Can you explain how I can assess mutant phenotypes to determine whether mutations affect regulatory regions of DNA, regulatory proteins, or structural genes? Mutants may be normally haploid or partially diploid bacteria (containing F' plasmids).

Please answer all parts. A.) GTP-bound G-protein will interact with an effector molecule. Name two effector...

Please answer all parts. A.) GTP-bound G-protein will interact with an effector molecule. Name two effector molecules. What change occurs in the GTP once effector interaction occurs? B.) Phosphorylation of GPCR (by GRK) results in binding sites for what molecule? What happens to the receptor at this point? C.) Trimeric protein reforms in this part (what is the state of the guanine nucleotide (GTP or GDP)? How would a non-hydrolyzable GTP influence this signalling? What about if only GDP was...

Protein synthesis requires energy in the form of ATP and GTP. Two high-energy phosphate bonds (from...

Protein synthesis requires energy in the form of ATP and GTP. Two high-energy phosphate bonds (from ATP) fuel the formation of one aminoacyl tRNA. Formation of the initiation complex requires energy from one GTP. Delivery of each new tRNA to the Asite requires one GTP. Termination requires the hydrolysis of one GTP.   Based on this information, the table of codons, and your understanding of the processes of Activation, Initiation, Elongation, and Termination, answer the following questions. How many high energy...

How might you identify some changes you could make in and around your home to create...

How might you identify some changes you could make in and around your home to create a safer, more comfortable environment for a person with disabilities such as visual or hearing impairments?