It depends on the nucleic acids information. Proteins are created by amino acids.
RNA is a single-stranded structure that is copied from an unzipped DNA strand identically, this is called transcription. The RNA strand contains the complementary base pairs for the DNA sequence. The DNA strand has sections that code for specific proteins, so when the RNA strand is created from the DNA, the RNA strand is then able to recreate the sequence that codes for the proteins. The RNA strand leaves the nucleus, via a nuclear pore, and enters the cytoplasm. In the cytoplasm the RNA strand binds to two Ribosomal subunits, and translation is carried out, producing proteins.
Ribosome. They attach to DNA strand and from the information taken create the proteins.
Single Strand Binding Proteins
When double stranded DNA is unwound into single stranded DNA, single-strand binding proteins bind to each single stranded DNA strand and prevent the two strands from reattaching to each other, allowing DNA replication to continue.
DNA is build from another template DNA molecule using DNA polymerase, among other enzymes.
RNA is a single-stranded structure that is copied from an unzipped DNA strand identically, this is called transcription. The RNA strand contains the complementary base pairs for the DNA sequence. The DNA strand has sections that code for specific proteins, so when the RNA strand is created from the DNA, the RNA strand is then able to recreate the sequence that codes for the proteins. The RNA strand leaves the nucleus, via a nuclear pore, and enters the cytoplasm. In the cytoplasm the RNA strand binds to two Ribosomal subunits, and translation is carried out, producing proteins.
Ribosome. They attach to DNA strand and from the information taken create the proteins.
Single Strand Binding Proteins
When double stranded DNA is unwound into single stranded DNA, single-strand binding proteins bind to each single stranded DNA strand and prevent the two strands from reattaching to each other, allowing DNA replication to continue.
DNA is build from another template DNA molecule using DNA polymerase, among other enzymes.
Assemblage of proteins (including primase, DNA polymerase, helicase, SSB proteins) that replicate the DNA. This complex involves in elongation of DNA and move along the complimentary strand.
Chromatin. The proteins are histones, used to organize and compact the DNA.
single-strand binding proteins
DNA polymerase is an enzyme that helps catalyze the polymerization of DNA bases (deoxyribonucleotides) into a DNA strand.
DNA Genes and Proteinthe gene is a subunit of DNA, one strand of DNA is copied into mRNA which is then translated into proteins
They prevent reattachement of DNA when it is being separated and replicated. It is also known as: "Single-strand DNA-binding proteins."
The order of bases in DNA is a code. Proteins are made of substances called, " Amino acids". A long strand of amino acids forms a protein.