Make a list of 5 structures that you can see when looking at a eukaryotic cell...

Using a compound microscope: 1a) When you begin looking at a slide under the microscope, should...

Using a compound microscope: 1a) When you begin looking at a slide under the microscope, should your stage be up or down? Explain. (Answer is down. Explain why please.) 1b) When you put your microscope away, should your stage be up or down? Explain. (Answer is down. Explain why please.) Thank you :)

You add a fluorescent antibody to a cell surface protein to a dish of cells. Looking...

You add a fluorescent antibody to a cell surface protein to a dish of cells. Looking at an individual cell under the microscope the entire surface of the cell is fluorescent. You then hit the cell with a brief pulse from a laser which bleaches out part of the fluorescence on the cell. Over time you notice that the entire surface of the cell becomes fluorescent again. What is the best explanation for this observation? 1. Proteins from parts of...

List, in the correct sequence, all of the heart structures that a single red blood cell...

List, in the correct sequence, all of the heart structures that a single red blood cell will pass through as it travels from the inferior vena cava to the brachiocephalic artery. Can someone please explain this in detail

Data Structures using C++ Searching a Linked List Here are the declarations for a simple unsorted...

Data Structures using C++ Searching a Linked List Here are the declarations for a simple unsorted linked list of ints that ends in a null pointer. //=============================================================== class Cell { friend class UList; private: int data; Cell* next; Cell( int dt, Cell* nx=nullptr ) : data(dt), next(nx) {} }; //=============================================================== class UList { private: Cell* head = nullptr;    // stationary head pointer. Cell* scan = nullptr;          // for walking down the List. Cell* follow = nullptr; public: void find( int...

Questions: In order to distinguish smaller cellular structures under the microscope, you would need to: Question...

Questions: In order to distinguish smaller cellular structures under the microscope, you would need to: Question 1 options: A. Increase your magnification B. Increase your resolution C.Increase both Magnification and resolution D.Change the color of light being used Question 2: The melting temperature of a DNA molecule is dependent on what? Question 3: Polymerase Chain Reaction, or PCR, is a process to synthetically copy nucleic acid, similar to what cellular pathway Question 3 options: A. Translation B.Replication C.Transcription D.Reverse transcription...

If a eukaryotic cell had a Kozak sequence of ACCACCAUGG and an anti-sense RNA is blocking...

If a eukaryotic cell had a Kozak sequence of ACCACCAUGG and an anti-sense RNA is blocking translation, what part of the anti-sense sequence can you predict, from 5`to 3`?

Consider the CRISPR-Cas9 system for gene editing. When introduced into a eukaryotic cell, the Cas9 makes...

Consider the CRISPR-Cas9 system for gene editing. When introduced into a eukaryotic cell, the Cas9 makes double stranded breaks in the DNA that are repaired by the eukaryotic cell. The ____________directs Cas9 to the correct target gene(s). ________________ is an efficient eukaryotic repair system, but often results in mistakes like insertions or deletions. _________________ only operates during G1 and S, operates rarely, but can be used to specifically substitute bases or even replace an entire gene. a. PAM; Non-homologous end...

A) Let’s say you are going to design a cell, would you make it large or...

A) Let’s say you are going to design a cell, would you make it large or small? Explain your choice. B) How come eukaryotic cells are about 10X larger than prokaryotic cells and are still able to function?

When a eukaryotic organism (such as a human) gets a bacterial infection, it can be treated...

When a eukaryotic organism (such as a human) gets a bacterial infection, it can be treated with antibiotics. Antibiotics work by targeting prokaryotic cells without targeting eukaryotic cells. This is possible due to molecular differences between the two cell types that enable specific targeting of molecules in prokaryotic cells but not eukaryotic ones. The effects of different categories of antibiotics are listed below. For each one, explain how this would affect prokaryotic cells and why. Some antibiotics disable ribosome function....

to larger objects, like smoke particles in the air. Suppose you see a 10???? – sided...

to larger objects, like smoke particles in the air. Suppose you see a 10???? – sided particle of smoke under a microscope. What do you expect for the rms speed of such a smoke particle at room temperature? Model the particle as a cube. Its density would be similar to graphite. Express you answer in ??m/s. This motion is called Brownian motion. It can be observed under a simple optical microscope.