Why is DNA sequencing better than protein sequencing?

Why is DNA sequencing better than protein sequencing?

When comparing DNA sequences, we get significantly more random matches than we get with proteins. It is accepted that convergence of proteins is rare, meaning that high similarity between two proteins always means homology. The DNA databases are much larger, and grow faster than protein databases.

Why is DNA sequence analysis considered more reliable data than morphology?

Phylogenetic trees reconstructed from molecular sequences are often considered more reliable than those reconstructed from morphological characters, in part because convergent evolution, which confounds phylogenetic reconstruction, is believed to be rarer for molecular sequences than for morphologies.

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What is difference between DNA and protein sequence?

The key difference between DNA and protein sequence is that the DNA sequence is a series of deoxyribonucleotides bonded via phosphodiester bonds, while the protein sequence is a series of amino acids bonded via peptide bonds. DNA is a type of nucleic acid. Protein is an essential macromolecule.

How can DNA be useful in phylogeny?

Any DNA, RNA, or protein sequences can be used to draw a phylogenetic tree. Before they split into separate species, they had exactly the same DNA. But as species evolve and diverge, they will accumulate changes in the DNA sequences. We can use these changes in the DNA to tell how closely related two species are.

Why do protein sequences also inform us about evolutionary relationships?

Because the DNA sequence determines a protein’s amino acid sequence, a gene shared by two closely related organisms should have similar, or even identical, amino acid sequences. As researchers sequence the genomes of an increasing number of organisms every year, they uncover more data to use in evolutionary studies.

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Why is DNA sequence prone to convergent evolution and is potentially misleading for phylogenetic inference?

Convergent evolution occurs when species occupy similar ecological niches and adapt in similar ways in response to similar selective pressures. Convergent evolution can mislead phylogenetic inference because it mimics shared ancestry. Standard phylogenetic methods are not equipped to differentiate between the two.

Why is aligning sequences important before creating a phylogeny?

The sequences alignment reveal which positions are conserved from the ancestor sequence. ❚ The progressive multiple alignment of a group of sequences, first aligns the most similar pair. ❚ Then it adds the more distant pairs.

How are DNA sequences used to make proteins?

DNA’s instructions are used to make proteins in a two-step process. First, enzymes read the information in a DNA molecule and transcribe it into an intermediary molecule called messenger ribonucleic acid, or mRNA. DNA’s instructions are used to make proteins in a two-step process.

How do you use the changes in DNA sequence to build a phylogenetic tree?

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Building a phylogenetic tree requires four distinct steps: (Step 1) identify and acquire a set of homologous DNA or protein sequences, (Step 2) align those sequences, (Step 3) estimate a tree from the aligned sequences, and (Step 4) present that tree in such a way as to clearly convey the relevant information to others …

How does DNA protein sequences provide evidence for evolution?

That two species and their common ancestor have similar DNA is strong evidence supporting evolution. Protein amino acid sequences can also be used to compare similarities between species. Proteins are made from amino acids and the sequence of these amino acids is controlled by genes.