I have my matrix designed in the following way which I name as mat1

```
Probes sample1 sample1 sample2 sample2 sample3 sample3 sample4 sample4
rep1 rep2 rep1 rep2 rep1 rep2 rep1 rep2
------------------------------------------------------------------------
gene1 5.098 5.076 5.072 4.677 7.450 7.456 8.564 8.555
gene2 8.906 8.903 6.700 6.653 6.749 6.754 7.546 7.540
gene3 7.409 7.398 5.392 5.432 6.715 6.724 5.345 5.330
gene4 4.876 4.869 5.864 5.981 4.280 4.290 4.267 4.255
gene4 3.567 3.560 3.554 3.425 8.500 8.564 6.345 6.330
gene5 2.569 2.560 8.600 8.645 5.225 5.234 7.345 7.333
```

I use the limma package to find the DEG's

```
Group <- factor(c("p1", "p1", "p2", "p2","p3", "p4","p4")
design <- model.matrix(~0 + Group)
colnames(design) <- gsub("Group","", colnames(design))
fit <- lmFit(mat1[,1:4],design)
contrast.matrix<-makeContrasts(p1-p2,levels=design)
fit2<-contrasts.fit(fit,contrast.matrix)
fit2<-eBayes(fit2)
sel.diif<-p.adjust(fit2$F.p.value,method="fdr")<0.05
deg<-mat1[,1:4][sel.diif,]
```

So will "deg" just give me those genes which are significant in sample one versus two. I am interested in those genes which are differentially expressed only in first sample but not in the second sample and am not sure if this is the right approach.

or should I try something like this

contrast.matrix<-makeContrasts(contrasts="p1"-("p2"+"p3"+"p4")/3,levels=design)

Iam not sure how I should set the contrasts matrix to obtain the DEG's from sample 1 only but not in the other three.