- Know the different processes of Eukaryotic Regulation (i.e. Chromatin Structure, Transcriptional regulation.

What is/are the main difference(s) between prokaryotic and eukaryotic transcription regulation? a. chromatin structure in eukaryotic...

What is/are the main difference(s) between prokaryotic and eukaryotic transcription regulation? a. chromatin structure in eukaryotic DNA b. compartmentalized transcription and translation in eukaryotes c. lack of repressor elements in eukaryotic DNA d. a and b e. a, b, and c

For each mechanism of eukaryotic gene regulation, specify whether it is pre-transcriptional or post transcriptional Methylation...

For each mechanism of eukaryotic gene regulation, specify whether it is pre-transcriptional or post transcriptional Methylation of CpG islands in the promoter histone acetylation RNA interference

Eukaryotic gene regulation: Epigenetic factors Chromatin structure: histones, methylation; euchromatin vs. heterochromatin. How does all this...

Eukaryotic gene regulation: Epigenetic factors Chromatin structure: histones, methylation; euchromatin vs. heterochromatin. How does all this affect transcription? X chromosome inactivation. Why does it happen? How does it happen? How does it result in calico cats? What does Xist do? Heritable, but can be modified by environment… what does this mean? Prader-Willi syndrome vs. Angelman syndrome: compare and contrast. microRNAs. How are they different from mRNAs? How do they interact with mRNAs? How are microRNAs different from Xist or other...

MicroRNA (miRNA) regulate the expression of eukaryotic genes by? a. promoting packing of chromatin into heterochromatin...

MicroRNA (miRNA) regulate the expression of eukaryotic genes by? a. promoting packing of chromatin into heterochromatin b. suppressing the binding of general transcriptional factor to promoter c. promoting mRNA degradation and inhibiting mRNA translation via binding to mRNA d. inhibiting intron splicing by binding to spliceosome e. suppressing mRNA transport from the nucleus to the cytoplasm

In eukaryotic cells, which of the following processes require histone remodeling by chromatin remodeling complexes? "select...

In eukaryotic cells, which of the following processes require histone remodeling by chromatin remodeling complexes? "select all that apply" explain each answer. 1. RNA interference 2. DNA sliding and positioning 3. DNA synthesis/replication 4. Building a centromere for attachment of microtubules 5. Replacing damaged histone subunits 6. tRNA charging 7. RNA transcription 8. Quickly eliminating the existing 'histone code'

You are investigating the regulation of the eukaryotic fledermaus gene (fm). Analysis of many types of...

You are investigating the regulation of the eukaryotic fledermaus gene (fm). Analysis of many types of data have indicated that the gene products listed below are all involved in regulating the expression of fm. For each gene product, state the most likely mechanism by which it regulates expression of fm and whether it most likely inhibits the gene, activates the gene, or whether there is insufficient information to say. The gene sequence of this protein shows that it has a...

Oocyte activation encompasses a number of different processes and events that are critical for normal embryogenesis...

Oocyte activation encompasses a number of different processes and events that are critical for normal embryogenesis a. what is meant by the 'activation' of the oocyte? b. When and how (i.e mechanism) is it initiated? c. What essential processes for normal development are initiated and which, if abnormal, can have deleterious downstream consequences for normal embryogenesis and why?

DNA structure - what are the components that make up DNA and how are they different...

DNA structure - what are the components that make up DNA and how are they different from RNA. Second paragraph: DNA Replication - describe the process in detail, including the use of all enzymes involved and the overall end result. Third paragraph: DNA Transcription and Translation - this paragraph should be the longest of all, with so much information for these processes. Describe step-by-step the events that take place, along with where, what organelles and molecules are involved, and the...

1) The "cytosol" of a eukaryotic cell is different from its "cytoplasm" because ____________________. cytoplasm includes...

1) The "cytosol" of a eukaryotic cell is different from its "cytoplasm" because ____________________. cytoplasm includes the organelles and cytosol does not cytosol includes the organelles and cytoplasm does not cytosol includes most of the components of the endomembrane system and cytoplasm does not cytosol includes the cytoskeleton and cytoplasm does not 2) Chaperone proteins ____________________. force certain parts of polypeptides to form domains facilitate correct polypeptide folding by permitting some interactions and blocking others determine the tertiary structure that...

1. Carvone exists as a pair of enantiomers(see structure p 23). (R)-(-)-carvone smells like spearment, whereas...

1. Carvone exists as a pair of enantiomers(see structure p 23). (R)-(-)-carvone smells like spearment, whereas (S)-(+)-carvone smells like caraway. Why do these enantiomers have different smells (i.e., different biological activity) ? 2. Why must enantiomers be converted to diastereomers before separation processes such as crystallization ?