There's an interesting discussion going on about lateral gene transfer (LGT) in eukaryotes. LGT is the process by which DNA from one species invades the genome of another species. It was apparently very common among primitive bacteria several billion years ago and it's still quite common in modern bacteria.
There are many reports of LGT in eukaryotes but some of them seem to be due to contamination from bacteria rather than true LGT. Many scientists are skeptical of these reports; notably Bill Martin (Heinrich Heine Universität, Düsseldorf, Germany) who suggests that almost all of them are artifacts and lateral gene transfer in eukaryotes is extremely rare [see Lateral gene transfer in eukaryotes - where's the evidence?].More Recent Comments
Friday, May 18, 2018
Thursday, May 10, 2018
Fixing carbon by reversing the citric acid cycle
The citric acid cycle1 is usually taught as depicted in the diagram on the right.2 A four-carbon compound called oxaloaceate is joined to a two-carbon compound called acetyl-CoA to produce a six-carbon tricarboxylic acid called citrate. In subsequent reactions, two carbons are released in the form of carbon dioxide to regenerate the original oxaloacetate. The cycle then repeats. The reactions produce one ATP equivalent (ATP or GTP), three NADH molecules, and one QH2 molecule.
The GTP/ATP molecule and the reduced coenzymes (NADH and QH2) are used up in a variety of other reactions. In the case of NADH and QH2, one of the many pathways to oxidation is the membrane-associated electron transport system that creates a proton gradient across a membrane. The electron transport complexes are buried in membranes—plasma and internal membranes in bacteria and the inner mitochondrial membrane in eukaryotes. Students are often taught that this is the only fate of NADH and QH2 but that's not true.One of the other common misconceptions is that the citric acid cycle runs exclusively in one direction; namely, the direction shown in the diagram. That's also not true. The reactions of the citric acid cycle are near-equilibrium reactions like most reactions in the cell. What this means is that the concentrations of the reactants and products are close to the equilibrium values so that a slight increase in one of them will lead to a rapid equilibration. The reactions can run in either direction.3
Philosophers talking about genes
It's important to define what you mean when you use the word "gene." I use the molecular definition since most of what I write refers to DNA sequences. There's no perfect definition but, for most purposes, a good working definition is: A gene is a DNA sequence that is transcribed to produce a functional product. [What Is a Gene?].
There are two types of genes: protein-coding genes and those that specify a functional noncoding RNA (i.e ribosomal RNA, lincRNA). The gene is the part of the DNA that's transcribed so it includes introns. Transcription is controlled by regulatory sequences such as promoters, operators, and enhancers but these are not part of the gene.In addition to genes, there are many other functional parts of the genome. In the case of eukaryotic genomes, these include centromeres, telomeres, origins of replication, SARs, and some other bits. None of this is new ... these functions have been known for decades and the working definition I use has been common among knowledgeable experts for half-a-century. Scientists know what they are talking about when they say that the human genome contains about 20,000 protein-coding genes and at least 5,000 genes for non-coding RNAs. They are comfortable with the idea that our genome has lots of other functional regions that lie outside of the genes.
Non-experts may not be familiar with the topic and they may have many misconceptions about genes and DNA sequences but we don't base our science on the views of non-experts.
Because of my interest in this topic, I was intrigued by the title of a new book, The Gene: from Genetics to Postgenomics. I ordered it a soon as I heard about it and I've just finished reading it. The version I read has been translated from German by Adam Bostanci.