- Millions of short sequence reads can be generated using next-generation sequencing technology in a high-throughput, economical manner.
- These new technologies have not only made genome sequencing easier but have also begun to alter the field of life sciences.
- some of their most important uses includes protein-nucleic acid interaction assays, single nucleotide polymorphism (SNP) and structural variation discovery, whole-genome sequencing and resequencing, mRNA and noncoding RNA profiling, and single nucleotide polymorphism (SNP) and structural variation discovery.
- These case studies in metagenomics, epigenomics, structural, functional, and comparative genomics are painting a fuller picture of the structures and functions of the genome.
- These next-generation sequencing technologies will soon have a significant impact on a variety of fields, including agriculture, food, and nutrition.
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The probability of producing a transgender = None ( D ) when the father is gay
The probability of producing male gamete is not affected by the sexual orientation of the Father because the production of the male gamete is carried by the spermatogonia found in the testes of a male. and every male specie regardless of your sexual orientation have testicles where the spermatogonia undergoes mitotic divisions to produce the male gametes.
Hence the probability of producing a transgender given that the father is gay is non-existent i.e.0%
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The Correct choice is C
The difference in concentration of materials across a space is called the <u>Concentration</u><u> </u><u>gradient</u> .
Answer:
CH3 + 2O2-----> CO2+2H2O
Na+ + Cl- ------> NaCl
4Al + 3O2------> 2Al2O3
N2+ +3H2 ------> 2NH3
(6,7,8) I can't see the small numbers
Answer:
one "A" or one "a"
Explanation:
In diploid species (2n), each individual inherits two gene variants (alleles) for each gene, one from the father and one from the mother. This means that each haploid gamete (n) receives one copy of each homologous chromosome that contains only one form of that gene (i.e., one allele). In consequence, and according to Mendel's First Law, alleles segregate into separate gametes (in this case either "A" allele or "a" allele since the parental genotype is heterozygous for this gene).
