Who Discovered The Cell And How?

Table of Contents (click to expand)

Robert Hooke was the first scientist to describe cells and he also coined the word. Anton van Leeuwenhoek was the first to describe bacteria and protists.

We are all composed of cells. They are the building blocks of you, me, an elephant, a shark, a snake, a cockroach, an oak tree, the mold growing on stale pizza, as well as the amoeba and all its single-celled cousins.

However, when you look at an elephant, we don’t see any cells. We see greyish-brown wrinkly skin, large floppy ears, and the beast’s impressive trunk. We don’t see these cells because our eyes simply can’t see things at such a small scale.

The smallest cell is a bacterial cell, measuring in at about 0.1 nanometer (10-9), while the average cell of an animal is usually between 20 micrometers and 100 micrometers. The smallest objects that our naked eyes can see are about 0.1 millimeters.

So, if cells are basically invisible to us, who discovered them—and how?


A Brief History Of The Microscope

The history of the cell, and all mico-organismic life, is closely tied to the invention of the microscope.

Humans have long known that objects can be magnified when seen through certain materials. By the thirteenth century, lenses had been invented and had been put to use in spectacles, magnifying glasses, and the telescope.

Microscopes came into the picture much later, in the early 17th century. Credit for the invention of the first compound microscope goes to a father-son duo, father Hans Janssen and son Zacharias Janssen. Sometime between 1590 and 1600, these spectacle makers in Holland had the idea of putting a lens on either side of a tube. Voila, the compound microscope was born.

Funnily enough, ten years later, in 1610, Galileo Galilei decided to look through his telescope from the wrong end, thereby creating his own compound microscope, even though he didn’t know about Janssen’s work.

Looking at a telescope the right way; Looking at a telescope the wrong way
Galileo wasn’t afraid to take risks

Though scientists now had a microscope, it would take another 60 years or so before actual cells were found. The first reason was that these first microscopes didn’t offer much magnification; they only enlarged objects by 3 to 9 times, not enough to see a cell.

The second reason was that people weren’t looking for cells. The popular opinion before microorganisms were discovered was that all life could be seen by the naked eye. With such a belief, many naturalists focused on describing large objects and their parts.

Also Read: Which Is Better: Optical Microscope Or Electron Microscope?

The Discovery Of The Cell – Robert Hooke And Anton Van Leeuwenhoek

The credit for discovering the cell goes to legendary scientist Robert Hooke.

Robert Hooke, native of the Isles of Wight in England, was a polymath and prolific scientist. He began his career as a mechanical engineer and inventor. He perfected the air pump, invented the spring balance for watches, and determined a way to accurately determine longitudes at sea (the result of which he curiously didn’t publish). He also helped rebuild London after the Great Fire of London—no small feat!

Robert Hooke was also interested in the problems of gravity, an area of Isaac Newton’s expertise. After Newton published Principia, Hooke claimed that Newton had stolen the inverse square law from him. The two soon became arch-nemeses, with many angry letters exchanged and much professional sabotage involved.

GRAVITY WAS MY IDEA meme
Poor Newton.

Though Robert Hooke couldn’t claim the fame for gravity itself, he would earn historical fame through his discovery of cells!

In 1665, Robert Hooke published Micrographia, a book dedicated to the microscopic. In keeping with his inventive nature, Hooke created a unique compound microscope that allowed him to magnify objects up to 5o times. With this, he could look at objects smaller than anyone had even before seen.

Hooke Microscope
Robert Hooke’s microscope (Photo Credit : public domain/Wikimedia Commons)

He made almost 60 observations with his microscope of everything from bread mold, linen, and silk to wild oats and cork. It was while Hooke was looking at cork under the microscope that he commented that the pores of the cork reminded him of the cells of monks. Thus, he called them cells.

Micrographia was the first book to describe the most minuscule aspects of life, and it was an instant hit.

Across the English Channel, on the continent, was another brilliant scientist who had likely come across Robert Hooke’s Micrographia. This was Anton Van Leeuwenhoek, one of the other discoverers of cells.

Leeuwenhoek was an unconventional scientist, to say the least. A textile merchant by profession, Leeuwenhoek had a brilliant mind bent towards curiosity, which led him to create his own, peculiar version of a microscope, one that could magnify objects up to 250 times!

Leeuwenhoek Microscope
Anton van Leeuwenhoek’s unique microscope (Photo Credit : Jeroen Rouwkema/Wikimedia Commons)

With this microscope, Leeuwenhoek looked at everything he could, sending letters of his observations and results of his experiments to the Royal Society, of which Robert Hooke was a member.

In 1676, he was spurred to examine a three-week-old pepper soup under the microscope. Within the soup, he saw “very wee animals” floating about. This is the first written account of bacteria. Later, he decided to take a closer look at the gunk on his teeth, and those of two other women and two men. There too, he found his little animals, which he lovingly referred to as ‘animalcules’.

In a letter from Leeuwenhoek to the Royal society on the bacteria, he writes, “an unbelievably great company of living animalcules, a-swimming more nimbly than any I had ever seen up to this time. The biggest sort. . . bent their body into curves in going forwards. . . Moreover, the other animalcules were in such enormous numbers, that all the water. . . seemed to be alive.”

Later, Robert Hooke verified these findings.

Urged by his colleagues, Leeuwenhoek even looked at his semen under the microscope, where he found ‘animalcules’, or what we know today as sperm.

Also Read: What Is The Cell Theory And How Was It Discovered?

Conclusion

To us, the idea of a cell is nothing special today, but in the 17th century, when most scientists believed that life sprung from thin air, and that a mini-human was present in a sperm, the idea of cells and bacteria was outlandish.

It took another 200 years before the next wave of scientists confirmed the idea of cells and took the next leap forward. The famous aphorism of cell biology, Omnis cellula e cellula, which means “every cell comes from another cell” also came into existence around this time, though who actually uttered it is uncertain—either François-Vincent Raspail or Rudolf Virchow.

Two scientists, Mattais Schleiden and Theodore Schwann, building on the work of many other scientists, proposed the tenets of Cell Theory.

  1. All living things are made up of cells.
  2. Cells are the basic structural unit of the cell.
  3. All cells come from preexisting cells.

Any scientist today wouldn’t blink at the above phrases, but the idea that the same things that build an elephant also makes up humans, plants, insects and every mushroom in the forest was mind-blowing only a few centuries ago!

How well do you understand the article above!

Can you answer a few questions based on the article you just read?

References (click to expand)
  1. Gest, H. (2004). The Discovery of Microorganisms by Robert Hooke and Antoni van Leeuwenhoek, Fellows of the Royal Society. Notes and Records of the Royal Society of London, 58(2), 187–201. http://www.jstor.org/stable/4142050 - JSTOR
  2. Whitrow, G. J. (1938). Robert Hooke. Philosophy of Science, 5(4), 493–502. http://www.jstor.org/stable/184662 - JSTOR
  3. journal article - www.jstor.org
Help us make this article better
About the Author

Salama has a degree in life sciences and biochemistry from St. Xavier’s College, Mumbai, which she puts to good use as a science writer and video producer at ScienceABC.com. She’s interested in the history of science; how science has shaped how we understand the world and society.

.