Antibiotic Drug Collection

Molecule of Amoxicillin antibiotic drug
Artwork of a molecule of Amoxicillin antibiotic drug, with the chemical formula C16.H19.N3.05.S

LM of crystals of streptomycin
Polarised light micrograph of crystals of Streptomycin, a common antibiotic. Magnification: X 33 at 35mm size

Ampicillin crystals
Polarised light micrograph of ampicillin, a semi- synthetic penicillin. Magnification: x25 at 35mm size. (purple to orange)

LM of crystals of antibiotic streptomycin
Polarised light micrograph of crystals of the antibiotic streptomycin, Magnification: X 30 at 35mm size

Penicillin drug crystals
Polarised light micrograph of penicillin, potassium salt crystallized from aqueous solution. Magnification X 25

Streptomycin crystal

Ampicillin antibiotic drug crystals
Ampicillin. Polarised light micrograph of crystals of the antibiotic drug ampicillin. This drug is a penicillin type of antibiotic, produced semi- synthetically

Penicillin drug molecule
Penicillin. Computer graphic of part of a molecule of penicillin, an antibiotic drug. The spheres represent atoms and are colour-coded as: carbon (green), oxygen (red), hydrogen (white)

Crystals of antibiotic tetracycline
Polarised light micrograph of crystals of the antibiotic tetracycline. Magnification: X 25 at 35mm size

Polarised LM of streptomycin crystals
Streptomycin. Polarised light micrograph of crystals of the antibiotic drug streptomycin. This is an aminoglycoside type of antibiotic, a drug used to treat infections caused by bacteria

Molecular graphic of vitamin A (retinol)
Vitamin A. Molecular model of vitamin A, also called retinol (formula: C20H30O). The atoms are spherical and colour-coded: carbon (blue), oxygen (red) and hydrogen (white)

All Professionally Made to Order for Quick Shipping

"Unveiling the Power of Antibiotic Drugs: A Glimpse into the Battle against Bacterial Infections" In a world teeming with microscopic life, antibiotic drugs stand as formidable warriors in our fight against bacterial infections. Petri dish cultures of E. coli bacteria serve as battlegrounds where these drugs showcase their potency. Amidst this microbial warfare, we witness the remarkable molecule of Amoxicillin, an antibiotic drug renowned for its broad-spectrum effectiveness. The lens zooms in to reveal crystals of streptomycin and ampicillin, two stalwart defenders in our arsenal. These intricate structures hold within them the potential to annihilate harmful bacteria and restore health. The polarised light microscope unravels mesmerizing patterns within streptomycin crystals, highlighting their unique properties. Penicillin drug crystals emerge next, reminding us of one of history's greatest medical breakthroughs. Discovered by Alexander Fleming almost a century ago, penicillin revolutionized medicine and saved countless lives from once-deadly infections. As we delve deeper into this captivating realm, ampicillin antibiotic drug crystals come into focus - tiny but mighty guardians that combat bacterial invaders relentlessly. Their presence reminds us that even small victories can make a significant impact on human well-being. Tetracycline enters the scene with its own set of beautifully formed crystals – another potent weapon combating various bacterial strains. Its efficacy has made it indispensable in treating an array of infections throughout decades. Through these glimpses into the microscopic world, we gain appreciation for the tireless efforts scientists invest in developing antibiotics that safeguard our health. These images remind us that behind every successful treatment lies years of research and dedication aimed at overcoming evolving bacterial resistance. Antibiotic drugs have undoubtedly transformed modern medicine by granting humanity an upper hand against infectious diseases. However, responsible usage is crucial to preserve their effectiveness for future generations; let us remember to follow medical advice diligently when prescribed such drugs.