BIO project GO-term table

Extracting Gene functions from GO and GOA

This table below of selected GO terms with human gene annotations in GOA is a starting point for function definition and gene selection.

Creation of the Function Table

The Function Table was created in the following steps:

1. I downloaded the file gene_association.goa_human from its GOA repository at the EBI. The file contains gene names and GO terms - here is an (abridged) example:

UniProtID  GeneName  GOtermID    Description                         taxID
A0A183     LCE6A     GO:0031424  Late cornified envelope protein 6A  taxon:9606		

2. I downloaded the GO Ontologies file go-basic.obo from its repository at GO -the Gene Ontology Consortium. It contains the actual ontology terms, they look like this.

[Term]
id: GO:0001776
name: leukocyte homeostasis
namespace: biological_process
def: "The process of regulating the proliferation and elimination of cells of the
immune system such that the total number of cells of a particular cell type within a
whole or part of an organism is stable over time in the absence of an outside stimulus."
is_a: GO:0002376 ! immune system process
is_a: GO:0048872 ! homeostasis of number of cells

Note the two is_a relationships that indicate the parent node, of which this one is a specialization.

3. I reconstructed the DAG (Directed Acyclic Graph) by connecting each of the 40,402 nodes to its parent node.

4. I eliminated all nodes that don't have at least one human gene in GOA annotated to it or one of its descendants. These are genes that might be specific to fungi, prokaryotes, viruses or similar.

5. For each node, I counted its distance from the root node. This "depth" tells us a bit about how specific a term is.

6. For each node, I counted how many human genes have been specifically annotated to it. This helps us a bit to indetify categories that are overly broad.

7: I wrote this information to file for the biological process ontology. The result has 11,927 nodes, one per line, and looks like this:

01  GO:0002376  immune system process [ ADSS ... 17 genes ]
05      GO:0001776  leukocyte homeostasis [MEN1, FLT3, NKX2-3]
06        GO:0001780  neutrophil homeostasis [ MECOM ... 13 genes ]

Here, neutrophil homeostasis has 13 annotated genes, it is six steps removed from the root. Its parent is leukocyte homeostasis which itself is a specialization (a descendant) of an immune system process. The intermediate nodes are not shown because there are no genes directly annotated to these terms. Now consider what it means to find a gene at these levels: MECOM is involved in the homeostasis (keeping cell-numbers constant) of neutrophil white blood cells. MEN1 is also involved in white blood cell homeostasis, but it could either target several cell types, or it is not known which cell type it targets. Thus it is annotated to a higher node. ADSS seems to be a gene for which we know it is involved in the immune system, but we don't know what it does there. This illustrates how partial knowledge can be represented in this data structure, and you can easily imagine that, as we learn more about biology, we move annotations down to more precise locations, or create new nodes to represent new knowledge.

8. Next, I selected from this list. For this project we are looking for terms that give a good approximation of a cellular function, without being either too broad or too specialized. I selected nodes that have from 1 to 4 annotated genes at a depth between 2 and 5, and I excluded terms with keywords that indicate a role in a higher function of the organism such as "morphogenesis", "development" and "behavior". This yields 541 processes represented by 1,214 unique annotated genes.

9. To create the table you see below, I wrote the output in HTML table format to file, while adding links to the UniProt entry for the gene name. The gene names come from HGNC so I would expect all of the genes to be findable at UniProt.

How to use the table to adopt a function for the project

1 Browse the table and find a function that interests you. Its very diverse and will give you a good first sense of the complexity of functions in the cell and our state of knowledge about them.

2 Look at the function information available at UniProt. Most of these genes have more than one GO term annotated to them. For example I could choose (at random) SRPX, which plays a role in phagolysosome assembly. Here are the annotated processes in which this protein participates:

Just looking at these processes tells me a lot. The annotation is for one protein, but it is implied in several aspects of biology. Some of them are causal to others, and some of them are generalizations. Here, the phagolysosome needs to be assembled in order to function. Once it has been made, this enables stress response, and contact inhibition, likely via apoptotic pathways and autophagy. This phagolysosome assembly sounds like a good system to work on. But is the term too broad, or too narrow? Could I find a better name for it?

I follow the link to the phagolysosome assembly GOterm, I find tabs that contain ancestral nodes and child nodes:

The Function Table

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