Answer:
Ribosomes link amino acids together in the order specified by the codons of messenger RNA molecules to form polypeptide chains. The function of ribosomes is to make proteins for the cell.
Erythrocytes get their color from a pigment called hemoglobin, which contains iron.
Erythrocytes, also known as red blood cells, derive their color from a pigment called hemoglobin. Hemoglobin binds to oxygen and carries it to different parts of the body. It contains iron, which gives erythrocytes their red color.
3.Explain why individuals in a population have different observable traits. Use your observation skills to find two examples of traits that you have inherited. These traits must be different from the ones that are discussed in the lesson.
Genes are composed of a sequence of nucleotides that code for a functional protein, straddled between a start and stop codon and are regulated by a promoter and regulator upstream. DNA, on the other hand, is a sequence of deoxyribonucleotides in an antiparallel double-helix chain. Genes are contained in the DNA double helix. Chromosomes are long DNA strands that are we packaged to into the small of the nucleus in a cell. The chromosomes contain packaging proteins such as histones in which DNA is wound to form nucleosomes.
This is because a population has different alleles (varying forms) of a gene distributed across the population in different frequencies. These alleles are passed down generation by parents to offspring. Each parent gives one allele to its offspring in diploid organisms. The difference in traits is because of this variation in the genotype of an organism. Additionally, how this genotype interacts with the environment to give the individual his phenotypic trait also give individuals varying traits.
An example of such a trait is my wavy hair, an observable trait I have because one of my parents has straight hair while the other has curly hair. I inherited an allele from both parents for hair texture. Since both allele exhibit incomplete dominance, I, therefore, have wavy hair.
O A. The proteins of the viral capsids kill all the cells around an
infected cell
B. The virus particles produce toxins that poison cells throughout the
body
C. The new viruses formed inside one cell infect and quickly kill other
cells.
D. The viral nucleic acid attaches to the DNA in a host cell and then
lies dormant
Answer:
C
Explanation:
Answer:
c
Explanation:
The answer is there is no specific time limit.
Residual condition refers to the condition, which remains after the end of the acute phase of an injury or illness. It can also be described as a later effect occurrence. The residual conditions may take place at any time after an illness or an acute injury.
The late effect or residual conditions may include burn, abscess, crushing injury, tuberculosis, poliomyelitis, and fracture.
B. It is stored in the nucleus and is used to make DNA.
C. It takes the message of the amino acid order for proteins to the cytoplasm, where the protein will be built.
D. It stores in the nucleus the information a cell needs to make its proteins with the right orders of amino acids.
The function of RNA is that it takes the message of the amino acid order for proteins to the cytoplasm, where the protein will be built.
RNA is a type of nucleic acid that means ribonucleic acid.
RNA can either be of the following types;
Generally, RNA functions in living cells by taking the message of the amino acid order for proteins to the cytoplasm, where the protein will be built.
Learn more about RNA at: brainly.com/question/25979866
Answer:
the answer is C It takes the message of the amino acid order for proteins to the cytoplasm, where the protein will be built.
Explanation:
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Answer:
This is for the offspring to show traits that come from both the mother and father.
Explanation:
Gametes are formed by a kind of cell division called meiosis in which the chromosome number is halved. Thus the said gamete cell is said to contain a haploid number of chromosomes.
The fusion of two haploid gametes is called fertilization. It results in the formation of single celled zygote which has a diploid number of chromosomes. The zygote now divides and develops to produce the offsprings whose somatic cells are diploid.