The mRNA made during transcription of G-C-T-T-A-G-T-C-C-A-T-T DNA template results in C-G-A-A-U-C-A-G-G-U-A-A
Further Explanation:
The double-helical structure of a DNA is duplicated through a process called DNA replication. Then the DNA undergoes a process of transcription and form RNA. After this, the RNA processing starts with post translation modification and forms rRNA, tRNA, AND mRNA. These RNA goes into the last stage called translation. Then, the formation of protein occurs.
The nucleic acid is mainly composed of small nucleotides. Every nucleotide is comprised of deoxyribose, nitrogenous base, and phosphate group. DNA is made up of four distinct type of nitrogenous base:
Also, the RNA comprised adenine, cytosine and guanine, but they don’t have thymine. They consists uracil as a substitute of thymine. The adenine base in DNA paired with thymine but in RNA adenine paired with uracil. The cytosine is paired with the guanine base. So, the sequence of mRNA is GCTTAGTCCAT forms the template sequence CGAAUGGUAA in mRNA.
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Answer Details:
Grade: High School
Subject: Molecular Biology
Chapter: Gene expression
Keywords:
DNA, RNA, concept map, replication, double helical, nucleotides, transcription, proteins, translation, mRNA, rRNA, tRNA, cytosine, adenine, uracil, thymine.
The mRNA formed from the given DNA template during transcription would be -C-G-A-A-U-C-A-G-G-U-A-A-.
The process in which mRNA (messenger RNA) is formed from a DNA template during gene expression is called
transcription. In this process, every DNA base is paired with a complementary RNA base - 'A' pairs with 'U', 'T' pairs with 'A', 'G' pairs with 'C', and 'C' pairs with 'G'. In the given DNA sequence, the bases pair as follows: -G-C-T-T-A-G-T-C-C-A-T-T- would pair to form -C-G-A-A-U-C-A-G-G-U-A-A-. Therefore, the mRNA made during transcription of the given DNA template would be option a: -C-G-A-A-U-C-A-G-G-U-A-A-.
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cellulose.
glycogen.
wax.
lipids.
Answer:
Animals, including humans, store glucose in the form of glycogen.(option 2)
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Animals, specifically humans, store glucose in the form of glycogen. Glycogen serves as an energy storage molecule which can be broken down into glucose when needed. Cellulose, wax, and lipids have different roles in the organism.
Animals, including humans, store glucose in the form of glycogen. Glycogen is a polysaccharide, or a complex carbohydrate, that our bodies use for energy storage. It is stored primarily in the liver and muscle cells. When our bodies need a quick boost of energy, glycogen is broken down into glucose molecules that can be utilized by the cells. It's unlike cellulose which is a structural component for plants, whereas wax and lipids play a different role in the organism.
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groundwater
oceans
runoff
Answer:
I believe runoff water
-light
-temperature
-animals
-elevation
-plants
-minerals
-topography
-growing seasons
Answer: The correct answer is- light, temperature, animals, plants, topography, and growing seasons.
Habitat can be described as an area or an environment where a particular species of plant, animal or any other living organism is naturally found.
In other words, habitat is a place that supports life of a species. The presence of various biotic and abiotic factor support different habitats.
Environmental factors that create different habitats include:
For four o'clock flowers, flower color is a case of incomplete dominance. The gene for flower color has two alleles: red (R) and white (r). What is the percent probability that one offspring from a parent with red flowers a second parent with white flowers will have genotype rr?
0%
For four o'clock flowers, flower color is a case of incomplete dominance. The gene for flower color has two alleles: red (R) and white (r). What is the percent probability that one offspring from a parent with the genotype RR and a second parent with the genotype rr will have red flowers?
Answer:
0%
Explanation:
According to the question, the inheritance pattern of flower colour in four o'clock plants follow incomplete dominance i.e. one allele is not completely dominant over the other, and instead they form a heterozygous plant with a third intermediate phenotype (flower colour).
In this case, a four o'clock plant with genotype RR will have red flowers while a plant with genotype rr will have white flowers, Hence, they cross to form an all Rr genotype offsprings with pink flowers (since the red allele is incompletely dominant). Therefore, the percentage chance of having a red flower offspring from this cross is 0%, as it cannot occur.