The three components make up nucleotide are nitrogenousbase, sugar, phosphate group.
Nitrogenous Base: A nucleotide'sidentity is determined by the nitrogenous base, which is a crucial component. Adenine (A), cytosine (C), guanine (G), and thymine (T) are the four different nitrogenous bases that can be found in DNA.
A nucleotide contains a five-carbon sugar molecule as its sugar. The sugar is referred to as deoxyribose in DNA and ribose in RNA. The sugar molecule joins the nitrogenous base to the phosphate group and gives the nucleotide structural stability.
PhosphateGroup: The phosphate group is a nucleotide's third constituent. It is made up of four oxygen atoms joined by a phosphorus atom.
Thus, these are the three components make up nucleotide.
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A. biodiversity increases ecosystem stability for a given type of ecosystem.
B. ecosystems are highly interconnected and the removal of even a few species can cause ecosystem disruption.
C. the diverse organisms of Earth's ecosystems provide services for humans that humans cannot replicate.
D. all of these
Answer:
Answer choice D
Ground water pollution can be caused by chemical spills, road salt, pesticides, fertilizers.
Groundwater pollution also described as groundwater contamination happens when pollutants are discharged to the ground and make their process down into groundwater. This type of water pollution can also happen commonly due to the appearance of an insignificant and unwanted component, contaminant or contamination in the groundwater, in which event it is more likely related to as contagion rather than pollution.
The tissue that lies beneath the epidermis and makes up the majority of the plant is called the ground tissue.
Ground tissue is a type of plant tissue that performs various functions, such as storage, photosynthesis, and support. It is found in stems, leaves, and roots of plants.
There are three types of ground tissue:
1. Parenchyma: This type of ground tissue is composed of thin-walled cells with large central vacuoles. It is responsible for storage, photosynthesis, and the secretion of enzymes and hormones.
2. Collenchyma: Collenchyma cells have thickened cell walls and provide flexible support to the plant. They are found in young stems, leaf veins, and petioles.
3. Sclerenchyma: Sclerenchyma cells have thick, lignified cell walls and provide rigid support to the plant. They are found in mature stems, leaves, and seed coats. Sclerenchyma cells are dead at maturity and are responsible for the hardness of structures like nutshells.
These three types of ground tissue work together to provide structural support, storage, and photosynthesis within the plant.
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From the rules of base pairing, we know that Cytosine always pairs with Guanine and Thymine always pairs with Adenine. These four bases are the only ones used as building blocks of nucleic acids DNA and RNA.
Adenine is abbreviated as A
Thymine is abbreviated as T
Cytosine is abbreviated as C
Guanine is abbreviated as G
There is no base abbreviated as F in nucleic acids so if we omit it, the sequence in the question should read CAGTTACG. The complimenting strand of the DNA molecule would therefore read GTAATGC
Answer:
in an animal cell, the center
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The nucleus is found in the center. :)
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Answer:
Proteins are the end products of the decoding process that starts with the information in cellular DNA. As workhorses of the cell, proteins compose structural and motor elements in the cell, and they serve as the catalysts for virtually every biochemical reaction that occurs in living things. This incredible array of functions derives from a startlingly simple code that specifies a hugely diverse set of structures.
In fact, each gene in cellular DNA contains the code for a unique protein structure. Not only are these proteins assembled with different amino acid sequences, but they also are held together by different bonds and folded into a variety of three-dimensional structures. The folded shape, or conformation, depends directly on the linear amino acid sequence of the protein.
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