Answer:
Conduct disorder
Explanation:
Conduct disorder is referred to as a behavioral disorder or sometimes referred to as a mental disorder in which children or adolescents exhibit a persistent and repeated behavioral pattern in which basic rules and rights of individuals are violated. Individuals with this behavioral disorder are most times not remorseful about their actions and they exhibit aggressive and destructive tendencies.
There is really no known cause for conduct disorders except for the fact that several factors like biological, physiological and social factors might be associated to it. It can be managed by behavioral and cognitive therapy.
Therefore, Rob's current diagnosis is most likely conduct disorder.
Answer: The probability of having an offspring that is dwarf in size is zero.
Explanation: Since tall phenotype is dominant to dwarf phenotype, let T represent allele for tall and t represent allele for dwarf. A heterozygous pea plant will have Tt genotype while a homozygous tall pea plant will have a TT genotype. A cross between them will produce two homozygous tall pea plants (TT) and two heterozygous tall pea plant (Tt). They will not have any offspring having a dwarf size. Therefore, the probability of having a dwarf offspring is zero.
See the attached punnet square for more information
Answer:
that would be genetics i belive.
Explanation:
Answer:
C) Non-protein-coding DNA that is transcribed into several kinds of small RNAs with biological function.
Explanation:
The genome of humans consists of a variety of protein-coding and non-protein coding sequences. The protein-coding sequences are the sequences which can get translated into the protein sequences.
When the genome was sequenced, it was expected that the size of these coding sequences will be larger but the sequences came to be smaller. This shows that the rest of the genome is made of the non-coding sequences.
The importance of these non-coding sequences is that they do not form the proteins but they can undergo transcription and form the variety of RNA molecules like the regulatory RNA, the ribosomal RNA and others.
Thus, Option-C is the correct answer.
