MK5 Microarray Data

These are the micro-array results of a differential gene expression microarray experiments and the subsequent analysis steps performed on them. The up/down- regulation ratio was obtained by measuring WT cells against MK5 activated cells. See material and methods for technical information as well as the data usage policy.

Ontology Breakdown

Below is a table that can help you break down the effect of the gene alteration on the bioloigcal system. To create the table below we went over all the ontology terms and counted the number of times a gene was listed in that specific class, or one of its children. As can be expected, each class will differ in its behavior. Some will have a strong average regulation, but will contain very few genes, while others will be very large and broad classes that will have a lower average regulation, but which will whos an overall effect with many genes in many subgroups being affected.

The best strategy to analyze such classes is to a) filter out all the classes for which we have too little data (less than 5 affected genes on the micro array measurement). This can be done by writing '>5' in the 'Affected Genes' field. SEcondly we might also want to look at one specific ontology at first (click on 'biological process' in the table.

Once this is done we can sort the data properly by placing the 'Average Regulation' to the left (click on the green arrows) and the '% Affected Genes' as a second. We also want to sort them descending (the grey arrow should be pointing downward).

Now we can go investigate the data by first look at broadly affected classes ('Would Be Affected Genes'>60) and progressively lowering this value (to something like 'Would Be Affected Genes'>20)

Navigation/Query Panel:
Click on the attribute name to hide/unhide it. The green arrows can be used to shift columns left/right. Exact word match is written as =..., regular expressions can be matched with ~.... To select all values larger or equal than use >.... This would be <... for values smaller or equal than. To select all values within a specific range use [...,...].

% Affected Genes	Class Size (#genes)	Would Be Affected (#genes)	Class	Average Regulation (ratio)	Class	affected	Microarray Measured (#genes)	Accession

Results: HTML CSV LaTeX

Showing element 25 to 74 of 328 in total

% Affected Genes	Class Size (#genes)	Would Be Affected (#genes)	Class	Average Regulation (ratio)	Class
4.3573	535	23	biological process	1.8484420895576477	regulation of progression through cell cycle
4.3197	539				regulation of cell cycle
4.2424	196	8	molecular function	2.037709048816136	anion transporter activity
4.2017	156	7		1.4174904584884644	ATPase activity, coupled to transmembrane movement of substances
4.1420	221	9		1.7680698462894984	metallopeptidase activity
4.1322	158	7		1.4174904584884644	ATPase activity, coupled to movement of substances
	159				hydrolase activity, acting on acid anhydrides, catalyzing transmembrane movement of substances
	172			1.5547808408737183	heme binding
					tetrapyrrole binding
4.1270	417	17		2.3509053725462694	GTP binding
4.0541	341	14		2.12662406762441	phosphoric ester hydrolase activity
4.0268	360			2.7959404488404593	protein dimerization activity
4.0248	427	17		2.3509053725462694	guanyl nucleotide binding
3.9823	261	10		2.116744134161207	phosphoric monoester hydrolase activity
3.9773	192	8	biological process	2.6829177481787547	regulation of growth
3.9735	164	7		2.267966568470001	transmembrane receptor protein tyrosine kinase signaling pathway
3.8095	230	9		2.3925783783197403	enzyme linked receptor protein signaling pathway
3.7234	208	8		1.8230999537876673	RNA splicing
3.6810	184	7	cellular component	1.6151355107625325	Golgi apparatus part
3.6145	245	9		2.5402226646741233	chromosome
3.5971	182	7	molecular function	2.599970555305481	amine receptor activity
3.5604	746	27	biological process	1.8924930147502734	cell cycle process
3.4700	472	16	cellular component	2.8238616314801304	chromosomal part
3.4682	191	7	molecular function	3.243556241194407	alkali metal ion binding
3.4335	264	9	biological process	2.2164768129587173	organ morphogenesis
3.4272	1038	36	molecular function	2.3974582254886627	transcription factor activity
3.4188	579	20		2.1927802711725235	sequence-specific DNA binding
3.4146	229	8	biological process	1.6467143297195435	cell cycle phase
3.4014	326	11	cellular component	1.753389847278595	cytoplasmic vesicle
3.3727	723	24	molecular function	2.201178240776062	hydrolase activity, acting on ester bonds
3.3626	877	29		1.8800545464391294	receptor binding
3.3557	331	11	cellular component	1.753389847278595	vesicle
3.3333	170	6	biological process	1.3052469968795777	regulation of cell differentiation
	249	8	molecular function	1.8456570080348425	RNA polymerase II transcription factor activity
3.2258	378	12	biological process	2.3798144817352296	alcohol metabolic process
3.1873	295	9	molecular function	1.9443604201078415	electrochemical potential-driven transporter activity
					porter activity
3.1746	208	7	cellular component	1.8491697907447815	synapse
3.1250	197	6		1.3853561878204346	vacuole
3.0968	890	28	biological process	2.4829982866843543	phosphate metabolic process
					phosphorus metabolic process
3.0928	238	7	cellular component	2.506638288497925	microtubule
	331	10	molecular function	2.506679137547811	transcriptional activator activity
3.0628	807	25		1.9421986639499664	pyrophosphatase activity
3.0612	216	7	cellular component	1.9925966064135234	cytoplasmic membrane-bound vesicle
					membrane-bound vesicle
3.0581	811	25	molecular function	1.9421986639499664	hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides
3.0488	814				hydrolase activity, acting on acid anhydrides
3.0405	1721	52	biological process	2.470501118236118	protein modification process
3.0400	739	22	cellular component	2.231512101073014	membrane fraction

Legend:
- The Average Regulation (ratio) is calculated only for the measured genes in this gene ontology term
- % Affected Genes is the % of genes in this gene ontology class that have been affected by the Mk5 alteration.
- Would Be Affected (#genes) represents how many genes of the overall class would have been affected if we measured each of them.
- The Class Size (#genes) counts the number of genes listed under the specific gene ontology term.
- Class is the GO class description.
- The Class refers to the ontology category, which can be molecular_function, biological_process or cellular_component.
- The Microarray Measured (#genes) lists how many genes of the specific ontology term were measured.
- Accession is the GO accession key.