How to do calculations with amino acids

So, you ask, what are the relative sizes of biological molecules and cells? The following are all approximations: 0.1 nm (nanometer) diameter of a hydrogen atom 0.8 nm Amino Acid 2 nm Diameter of a DNA Alpha helix 4 nm Globular Protein 6 nm microfilaments 7 nm thickness cell membranes 20 nm Ribosome 25 nm Microtubule 30 nm Small virus (Picornaviruses) 30 nm Rhinoviruses 50 nm Nuclear pore 100 nm HIV 120 nm Large virus (Orthomyxoviruses, includes influenza virus) 150-250 nm Very large virus (Rhabdoviruses, Paramyxoviruses) 150-250 nm small bacteria such as Mycoplasma 200 nm Centriole 200 nm (200 to 500 nm) Lysosomes 200 nm (200 to 500 nm) Peroxisomes 800 nm giant virus Mimivirus 1 µm (micrometer) (1 - 10 µm) the general sizes for Prokaryotes 1 µm Diameter of human nerve cell process 2 µm - a bacterium 3 µm Mitochondrion 5 µm length of chloroplast 6 µm (3 - 10 micrometers) the Nucleus 9 µm Human red blood cell 10 µm (10 - 30 µm) Most Eukaryotic animal cells (10 - 100 µm) Most Eukaryotic plant cells 90 µm small Amoeba 120 µm Human Egg up to 160 µm Megakaryocyte up to 500 µm giant bacterium Thiomargarita up to 800 µm large Amoeba 1 mm (1 millimeter, 1/10th cm) 1 mm Diameter of the squid giant nerve cell up to 40mm Diameter of giant amoeba Gromia Sphaerica 120 mm Diameter of an ostrich egg (a dinosaur egg was much larger) 3 meters Length of a nerve cell of giraffe’s neck #genetics #DNA #protein #peptide #polypeptide #aminoAcid