DNA and proteins, specifically histones, condense together to form chromosomes. DNA molecules wrap around histone proteins to create nucleosomes, which then coil and pack together tightly to form the condensed structure of a chromosome.
One of the factors allowing DNA to fit inside the nucleus of a cell is its ability to coil and condense into a highly organized structure. DNA achieves this by wrapping around proteins called histones to form nucleosomes, which then coil up further to form chromatin fibers. This packaging of DNA allows it to be tightly packed within the nucleus without becoming tangled.
A phosphate group and a lipid (to form a phospholipid).
Large or polar molecules, such as glucose or ions, typically require assistance to cross the cell membrane. This assistance can come in the form of transport proteins like channel proteins or carrier proteins that facilitate the movement of these molecules across the membrane.
DNA molecules are joined together through hydrogen bonding between complementary nucleotide bases (A-T and G-C). This forms the double helix structure. The DNA molecule is then coiled around histone proteins to form structures known as nucleosomes, which further coil and condense to form chromosomes.
Amino acids form proteins.
DNA and proteins, specifically histones, condense together to form chromosomes. DNA molecules wrap around histone proteins to create nucleosomes, which then coil and pack together tightly to form the condensed structure of a chromosome.
Amino acids join together to form proteins.
One of the factors allowing DNA to fit inside the nucleus of a cell is its ability to coil and condense into a highly organized structure. DNA achieves this by wrapping around proteins called histones to form nucleosomes, which then coil up further to form chromatin fibers. This packaging of DNA allows it to be tightly packed within the nucleus without becoming tangled.
Animo acids
The organic molecules form proteins for the body.
phospholipids and proteins
Animo acids
Protein molecules involved in cell transport include carrier proteins, channel proteins, and pump proteins. Carrier proteins bind to specific molecules and transport them across the membrane, channel proteins form channels for molecules to pass through, and pump proteins use energy to actively transport molecules against a concentration gradient.
Amino acids are the molecules that form proteins when linked together by covalent bonds called peptide bonds.
basically - other atoms. That is how molecules are formed and then complex molecules like proteins and polymers etc
A phosphate group and a lipid (to form a phospholipid).