Gleocapsa: Unicellular, Nitrogen Fixer

  • Thread starter Thread starter Ester
  • Start date Start date
  • Tags Tags
    Nitrogen
AI Thread Summary
Gleocapsa is a unicellular organism found in wet environments, known for its nitrogen-fixing capabilities. The gelatinous coating surrounding Gleocapsa cells leads to confusion about their classification as multicellular organisms. However, they are considered unicellular because they lack specialized structures for cell-to-cell signaling, indicating they are individual cells living in a colony rather than a true multicellular organism. To determine Gleocapsa's nitrogen-fixing ability, experimental methods can be employed, such as in vitro tests that measure changes in nitrogen levels when these organisms are exposed to nitrogen gas. The fixation process involves converting atmospheric nitrogen and water into ammonia and oxygen, which can be detected through changes in pH and the presence of ammonia gas. Additionally, the detection of specific enzymes associated with nitrogen fixation could further confirm their ability to fix nitrogen. Overall, while nitrogen fixation is a rare trait among organisms, Gleocapsa's unique characteristics and behaviors highlight its ecological significance.
Ester
Messages
50
Reaction score
0
I've done some browsing on Gleocapsa and found out that it is unicellular. I can find them in wet mounts, ponds, moist soil, damp or wet areas. I also found out that Gleocapsa is a nitrogen fixer.

My question is, since Gleocapsa is surrounded by a clear, gelatinous coating which makes one or more cells clump together within the gelatinous mass, how come we can't consider them multicellular?

My second question is how can we tell that Gleocapsa is a nitrogen fixer? Many sites just say so without any explanation.
 
Biology news on Phys.org
Does anyone know the answer to the second question?
 
I don't know the exact answer, but as with most things in biology, it has probably been experimentally determined in controlled settings. I'm not familiar with how one would test for nitrogen fixation, but I would imagine it would involve in vitro experiments where nitrogen is added to determine what happens to it in these cells.

As for why the would not be considered multicellular, as long as they are just "stuck" together, but don't have specialized structures permitting cell-to-cell signaling (such as gap or tight junctions -- you probably haven't learned about those yet), then they probably are individual organisms living in a colony.
 
Ester said:
Does anyone know the answer to the second question?
You could approach this as a biochemist with vessels of nitrogen gas and collect any gases evolved from these organisms in their medium and conduct a chemical anaysis of the medium before and after the experiment.

A less rigid experiment may allow the use of naturally occurring nitrogen in the air.
The fixation reaction for Gloeocapsa takes atmospheric nitrogen and combines with water to produce ammonia and oxygen.
2N2 + 6H2O = 4NH3 + 3O2 ref
The ammonia dissolves in water to form NH4+ (ammonium ion) plus OH- (hydroxyl ion). http://www.fishdoc.co.uk/water/ammonia.htm
If nitrogen is being fixed, the liquid media would become progressively alkaline. (higher pH).
A smell of gaseous ammonia would be another solid clue.
 
Last edited by a moderator:
testing for reduced nitrogen would be absolute evidence of this.

testing for the presence of enzymes such as FixL would also suggest nitrogen fixing.

not many organisms can fix nitrogen, surprisingly.
 

Thread 'Chagas disease now established in US'

Chagas disease, long considered only a threat abroad, is established in California and the Southern U.S. According to articles in the Los Angeles Times, "Chagas disease, long considered only a threat abroad, is established in California and the Southern U.S.", and "Kissing bugs bring deadly disease to California". LA Times requires a subscription. Related article -...
View full post »

Thread 'I need help understanding this quote about recent Natural Selection'

I am reading Nicholas Wade's book A Troublesome Inheritance. Please let's not make this thread a critique about the merits or demerits of the book. This thread is my attempt to understanding the evidence that Natural Selection in the human genome was recent and regional. On Page 103 of A Troublesome Inheritance, Wade writes the following: "The regional nature of selection was first made evident in a genomewide scan undertaken by Jonathan Pritchard, a population geneticist at the...
View full post »

Thread 'Fermentation using mixed legume and grain feedstock'

I use ethanol for cleaning glassware and resin 3D prints. The glassware is sometimes used for food. If possible, I'd prefer to only keep one grade of ethanol on hand. I've made sugar mash, but that is hardly the least expensive feedstock for ethanol. I had given some thought to using wheat flour, and for this I would need a source for amylase enzyme (relevant data, but not the core question). I am now considering animal feed that I have access to for 20 cents per pound. This is a...
View full post »

Similar threads

COVID MRNA Vaccine Safety: Answer of the European Medicines Agency (EMA)
Replies
2
Views
2K
Total force from air spring model (double acting piston)
Replies
8
Views
2K
Composting Process: Learn About Oxygen, Carbon, Hydrogen & Nitrogen
Replies
16
Views
3K
Can I save anything in my greenhouse from frost damage?
Replies
11
Views
2K
Science of Evaporation - General & Personal Questions
Replies
23
Views
3K
Complete thermal decomposition of specific compounds
Replies
4
Views
3K
How Much Nitrogen Gas Escapes from a Compressed Cylinder?
Replies
2
Views
3K
I Thermodynamic Pros/Cons coating light metal tanks with rubber
Replies
7
Views
1K
CRISPR Cas9: Answers to Questions
Replies
3
Views
2K
Is the mass of Liquid N2 and its rate of mass loss related?
Replies
10
Views
2K

Hot Threads

Recent Insights

Back
Top