Please help, I’m confused and have little time!1. How does your DNA differ from other peoples?how is it similar
2.How does your DNA differ from a strawberries DNA? How is it similar
Answers
Answer:
1.DNA is more than 99% similar between any two people. All the differences in how we look, feel, behave and the differences in our health are due to less than 1% difference
2.In humans each of these cells have 2 copies of the DNA, but in strawberries each of these have 8 copies of the DNA that means strawberries have 4 times as many copies of DNA as humans, making it 4 times easier to see.
Explanation:
Related Questions
A fossil that forms when the hard parts, I.e bones, wood, etc.., are turned into stoneA: index fossilsB: mold and castC: petrified fossilsD: trace fossils
What ultimately controls the cell's production of proteins?a. RNAb. DNAc. proteind. allele
Which statement is the correct explanation of the function of macromolecules in carrying out a major function in the cell?
By which processes are rocks broken up and moved to different locations
Agree or
Disagree
Answers
Answer:
Agree
Explanation:
The biotic factors of an ecosystem include all the populations in a habitat, such as all the species of plants, animals, and fungi, as well as all the micro-organisms. Also recall that the nonliving factors are called abiotic factors. Abiotic factors include temperature, water, soil, and air.
b) proteins shapes determines which amino acids are made
c) proteins shape determines the shape DNA
d) proteins shape determines how much energy is stored in the protein molecule
Answers
The importance of a proteins shape and structure determine the protein function.
What are the levels of protein structure?
The Primary structure of proteins is the linear ordering of amino acids, bound by Covalent,peptide bonds to form primary structure.
Secondary structure refers to local folded structures formed due to hydrogen bonding between the amine and carboxyl group of the peptide link of polypeptide chain.
These structure present in two forms like α – helix form which is a polypeptide chain forms hydrogen bonds by twisting into a right-handed screw with the -NH group of each amino acid residue.
The β – pleated sheet structures are the peptide chains are stretched out ,laid side by side together by intermolecular hydrogen bonds. The structure resembles the pleated folds of drapery.
Tertiary Structure of Protein refers to folding of the secondary structure by H-bonds, electrostatic forces, disulphide linkages, and Vander Waals forces stabilize this structure. Quaternary Structure of Protein refers to spatial arrangement of various tertiary structures.
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Answer:
Proteins catalyze chemical reactions by bringing them together in the right orientation and helping them react together. If they have the wrong shape they cannot do this. This is because with the wrong shape, the pieces will not fit together properly
Explanation: A
Answers
False
Answers
Answer:
True
Explanation:
If you look at your keyboard, the first letters are QWERTY. This is the standard keyboard layout
Answer:
true
Explanation:
:D
b. The light-dependent reactions are responsible for making sugars.
c. The light-independent reactions use ATP and NADPH.
d. The light-independent reactions use the sunlight to drive its processes.
Answers
There are several starting ingredients that are required for starting the process of photosynthesis. The most important are sunlight, water, carbon dioxide and certain minerals. Sunlight helps in building up the optimum temperature that is required to start the process of photosynthesis. Water is an important raw material that helps to absorb the carbon dioxide from the air. It also directly influences the opening and closing of the stomata. Carbon dioxide on the other hand is one of the most important raw material that helps to make glucose via the process of photosynthesis.
the correct answer would be A
Answers
Answer: The energy is located in the phosphoanhydride bond, present between the phosphate groups in the ATP ( adenosine triphosphate) molecule.
There are two high energy chemical bonds present in the ATP. These are called as phosphoanhydride bonds. A high amount of energy is released when these bonds are broken down. When one phosphoanhydride bond is broken down, it releases 7.3 kcal/mol of energy.
Thus, the correct answer is phosphoanhydride bond.
The chemical bonding between the phosphate groups is where most of the energy in ATP (adenosine triphosphate) is found.
One adenosine molecule and three phosphate groups make up ATP. Phosphonhydride bonds are the name for the high-energy bonds that link phosphate groups. Adenosine diphosphate (ADP) and inorganic phosphate are formed as a result of the hydrolysis (breakdown) of ATP, a process known as ATP hydrolysis.
Cells can employ the energy released by this hydrolysis reaction for a variety of biological processes, including the synthesis of macromolecules, active transport, and muscle contraction. These phosphate bonds must be broken in order to release the energy contained within the ATP molecule.
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