The answer would be:
RrYy x rryy
Here's more about your question:
The Punnet square for this cross is attached below.
As you can see the results will be:
RrYy = 4/16 = 1/4
rrYy = 4/16 = 1/4
Rryy = 4/16 = 1/4
rryy = 4/16 = 1/4
All four phenotypes have a 1/4 chance of occurring. So the ration between them would be 1:1:1:1
The word that is being looked for in this problem would probably be and most likely be the word plaque.
Coronary artery disease is a disease of the heart where the arteries and blood vessels become clogged with fat deposits called plaque. Plaque is usually described a fatty deposits that clog the arteries which then results to a coronary artery disease, well actually it isn't just fats at all. It is a combination of other stuffs such as calcium, scar tissues, and proteins, all together with the fats that make up the plaque.
OBJECTIVES
Observe different types of cells.
Use the microscope. These supplies and equipment are needed:
prepared slide of muscle tissue
prepared slide of some internal organ such as the kidney, liver, or heart
prepared slide of erythrocytes, or leukocytes (from blood)
Follow these directions and complete the activities.
1. Place one of the prepared slides of animal tissue on the stage of the microscope.
2. Focus the microscope on low power. Then change to the high power objective. Focus on the tissue, and note the cells.
3. On a separate sheet of paper, draw an individual cell that you see in the tissue. Note the shape of the cell and its other distinctive characteristics.
What do you think the function of this cell might be?
4. Repeat Steps 1 and 2 using the other prepared slides.
5. On a separate sheet of paper, draw individual cells from the other prepared slides examined.
What do you think the functions of the other cells drawn might be?
If all of the different kinds of cells which you observed had been taken from the same organism or individual, would they have all had the same genetic information?
Consider specialization: What biological concept or occurrence is demonstrated by the different kinds of cells which were observed?
Why is it important?
Answer: 434 words total. Left two questions blank (they are underlined) so youll probs need to fill it in. I also suggest putting it into your own words so if they run it through a plagerism checker this doesnt pop up. I hope this helps tho.
Introduction:
Cells are the basic building blocks of all living things. The human body is composed of trillions of cells. They provide structure for the body, take in nutrients from food, convert those nutrients into energy, and carry out specialized functions. Cells also contain the body’s hereditary material and can make copies of themselves. Cells have many parts, each with a different function. Some of these parts, called organelles, are specialized structures that perform certain tasks within the cell.
Materials:
• Microscope
• Prepared slide of muscle tissue
• Prepared slide of some internal organ such as the kidney, liver, or heart
• Prepared slide of erythrocytes, or leukocytes (from blood)
Instructions:
1. Place one of the prepared slides of animal tissue on the stage of the microscope.
2. Focus the microscope on low power. Then change to the high-power objective. Focus on the tissue, and note the cells.
3. On a separate sheet of paper, draw an individual cell that you see in the tissue. Note the shape of the cell and its other distinctive characteristics.
-What do you think the function of this cell might be?
4. Repeat Steps 1 and 2 using the other prepared slides.
5. On a separate sheet of paper, draw individual cells from the other prepared slides examined.
Questions:
What do you think the functions of the other cells drawn might be?
- (i think this differs on person to person so may need to do it yourself)
If all of the different kinds of cells which you observed had been taken from the same organism or individual, would they have all had the same genetic information?
- Yes, the cells will have the same genetic information. However, the particular combination of genes that are turned on (expressed) or turned off (repressed) dictates cellular morphology (shape) and function. Essentially meaning that though the cells share the same genetic information they do not necessarily share the same functions.
Consider specialization: What biological concept or occurrence is demonstrated by the different kinds of cells which were observed?
- Though these cells have the same DNA, they all have different phenotypes. The phenotypes are different because the cells appear different under the microscope. The cells do this by expressing different genes at different rates. For example, the blood cell is expressing the gene to make hemoglobulin while the other cells are probably expressing different genes that allow them to be specialized. Cells differentiate which means that they are becoming more specialized. Epigenetics focuses on how cells become more specialized.
Why is it important?
- This is important because it allows different parts of the body to carry out their crucial functions necessary for the whole body to run properly.
This is important because it allows different parts of the body to carry out their crucial functions necessary for the whole body to run properly.
Introduction: Cells are the basic building blocks of all living things. The human body is composed of trillions of cells. They provide structure for the body, take in nutrients from food, convert those nutrients into energy, and carry out specialized functions. Cells also contain the body’s hereditary material and can make copies of themselves.
Materials: Microscope, Prepared slide of muscle tissue, Prepared slide of some internal organ such as the kidney, liver, or heart , Prepared slide of erythrocytes, or leukocytes (from blood).
Instructions: 1. Place one of the prepared slides of animal tissue on the stage of the microscope.
2. Focus the microscope on low power. Then change to the high-power objective. Focus on the tissue, and note the cells.
3. On a separate sheet of paper, draw an individual cell that you see in the tissue. Note the shape of the cell and its other distinctive characteristics.
-What do you think the function of this cell might be?
4. Repeat Steps 1 and 2 using the other prepared slides.
5. On a separate sheet of paper, draw individual cells from the other prepared slides examined.
- Yes, the cells will have the same genetic information. However, the particular combination of genes that are turned on (expressed) or turned off (repressed) dictates cellular morphology (shape) and function. Essentially meaning that though the cells share the same genetic information they do not necessarily share the same functions.
Consider specialization: What biological concept or occurrence is demonstrated by the different kinds of cells which were observed?
- Though these cells have the same DNA, they all have different phenotypes. The phenotypes are different because the cells appear different under the microscope. The cells do this by expressing different genes at different rates. For example, the blood cell is expressing the gene to make hemoglobulin while the other cells are probably expressing different genes that allow them to be specialized. Cells differentiate which means that they are becoming more specialized. Epigenetics focuses on how cells become more specialized.
To learn more about microscope, click here.
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B. False
Answer:
The given statement is true.
Cotton is a type of fiber obtained from plants belonging to the genus Gossypium under family Malvaceae.
Cotton plants are shrubs in nature mainly found in tropical and subtropical regions including India, Egypt, Africa, and the America.
Cotton fibers are inexpensive, light weight, and are used to make wide varieties of fabrics such as voiles, laces, sailcloths, velveteens, home furnishings, wearing apparel, and industrial uses.
Answer:The leading strand is smoothly repeated, while every five feet the lagging strand is like driving down a street with a stop sign. In small single strands, the lagging strand must be repeated, while the stand is combined by DNA ligase. The DNA helicase is an essential multi-subunit protein in the replication process because it combines ATP's exergonic hydrolysis with the unwinding of the double helix of the DNA. In the initiation complex (the collection o collection o), additional proteins must be recruited.DNA polymerase is responsible for the DNA replication process, during which a molecule of double-stranded DNA is copied into two identical molecules of DNA. The power of DNA polymerase molecules to copy DNA molecules into test tubes through polymerase chain reaction, also known as PCR, has been used by scientists.DNA polymerase is responsible for the mechanism of DNA replication, during which a double-stranded DNA molecule is copied into two identical DNA molecules. Scientists have exploited the power of DNA polymerase molecules to copy DNA molecules into test tubes by polymerase chain reaction, also known as PCR.
Explanation: