Cells and Cities Show Purpose and Design

Cells and Cities Show Purpose and Design

Whether we live in a city or in the country, we all recognize that cities are hubs of activity that keep life going and hopefully thriving. A living cell is like a miniature city, and we see life functions in the cell that correlate with activities that maintain life in the city. We can learn some things by comparing cells and cities. 

A city has a boundary called the city limits, and cells have a membrane marking their outer boundary. At the city center, we have a city hall and courthouse storing vital information and sending out directives to keep the city functioning. Cells have a nucleus that performs similar functions. The nucleus contains DNA that stores all the information for constructing and controlling the cell’s components and, ultimately, the entire body. 

Both cells and cities must have a way to transport materials within their boundaries. In cities, streets, roads, and highways perform this function. Cells have a transportation system called the endoplasmic reticulum (ER) to move proteins around and perform other functions. Both cells and cities need an energy source to function. Cities get their energy needs from fossil fuels, solar cells, and electrical generators. Mitochondria, “the powerhouse of the cell,” convert food calories into chemical and heat energy to maintain the cell’s life. 

Garbage trucks and sewers remove waste in the city. Cells have structures called lysosomes filled with digestive enzymes that eliminate toxic materials. Cities have factories that produce the products people need. Protein factories in the cell are called ribosomes, which manufacture new structures according to the genetic instructions in the DNA. 

While the U.S. Postal Service and companies such as UPS and FedEx transport materials between cities, the Golgi apparatus does that for the cells. For example, Golgi bodies in the pancreas package insulin for transport to other cells, allowing them to convert sugar into energy. Cells and cities need places to store essential commodities, and vacuoles perform that function in the cells. 

We live in a city that was not built by random chance. Our city has a history of design that allowed Niles, Michigan, to be founded and developed. Just as Niles was not merely a product of chance, so too the cell is not an accident. In this comparison, we have greatly oversimplified our explanation of the cell functions since cells are even more complex than cities. If cities require design and purpose by intelligent beings, living cells give strong evidence of purpose and design by a wise creator God.

— John N. Clayton © 2023

Inspired by: “Cells function like miniature cities” by Sheryl Myers in the Herald Bulletin of Anderson, Indiana, February 25, 2023 

Membrane Structure and Water – A Response

Membrane Structure and Water
In our January 10, 2019 post we discussed attempts to redefine life. Some scientists are doing that to justify the assumption that there are massive amounts of life in the cosmos. Is that true? We have pointed out that the Bible is silent on this subject. However, this question brings up some other issues about membrane structure and water. Dr. Phillip Eichman is a scientist with a Ph.D. in biology who has written many articles for our printed journal. He also wrote a book titled Understanding Evolution: A Christian Perspective. He made this observation of our previous post.

“I found your blog about the search for non-water-based life forms interesting. I took a course at IUPUI (Indiana University/Purdue University Indianapolis) called “Biological Membranes.” We spent a whole semester studying the structure and function of different types of biological membranes. It was one of the best courses that I have taken, and it really helped to pull a lot of things together.

“The professor had been a student or post-doc of Sidney Fox and was very critical of his proteinoid microsphere theory. He (my prof) believed that any life form must have a lipid membrane to survive.

“If you think about it, water is as essential to the formation of a membrane as are the phospholipids. It’s that hydrophobic/hydrophilic interaction that allows the membrane to form. Those compounds you mentioned are all aliphatic hydrocarbons and are nonpolar, so they won’t form any type of membrane like what we know about on Earth.

“When I was teaching even basic courses like Fundamentals of Biology, I spent a lot of time on the nature of the water molecule and also on membrane structure. Biology just doesn’t make sense without understanding those things.

“They may find something out there with a different type of membrane, but I will wait to see it myself. I used to tell my students that the membrane keeps the inside in and the outside out. Without that, a cell as we know it just won’t work.

“P.S. I wrote a short article on membrane structure 20+ years ago. It has been cited several times even though it was in an obscure journal. It is still accessible even though it is probably dated now. Here is the link: http://shipseducation.net/9-2/membrane.htm

–John N. Clayton and Phillip Eichman © 2019