type0	YDR263C	Increased	In this study, mRNA abundance of these genes was specifically induced in response to the creation of a single unrepaired double strand break (DSB) in DNA by HO endonuclease cleavage.  These genes were related to the DNA damage responses that emerged from the DSB.  YJL026W/RNR2 and YGR180C/RNR4, in particular, are known DNA damage inducible ribonucleotide reductase subunits.  The authors considered a change in gene expression of at least 3-fold to be significant.	
type0	YHR071W	Increased	In this study, mRNA abundance of these genes was specifically induced in response to the creation of a single unrepaired double strand break (DSB) in DNA by HO endonuclease cleavage.  These genes were related to the DNA damage responses that emerged from the DSB.  YJL026W/RNR2 and YGR180C/RNR4, in particular, are known DNA damage inducible ribonucleotide reductase subunits.  The authors considered a change in gene expression of at least 3-fold to be significant.	
type0	YDL101C	Increased	In this study, mRNA abundance of these genes was specifically induced in response to the creation of a single unrepaired double strand break (DSB) in DNA by HO endonuclease cleavage.  These genes were related to the DNA damage responses that emerged from the DSB.  YJL026W/RNR2 and YGR180C/RNR4, in particular, are known DNA damage inducible ribonucleotide reductase subunits.  The authors considered a change in gene expression of at least 3-fold to be significant.	
type0	YJL026W	Increased	In this study, mRNA abundance of these genes was specifically induced in response to the creation of a single unrepaired double strand break (DSB) in DNA by HO endonuclease cleavage.  These genes were related to the DNA damage responses that emerged from the DSB.  YJL026W/RNR2 and YGR180C/RNR4, in particular, are known DNA damage inducible ribonucleotide reductase subunits.  The authors considered a change in gene expression of at least 3-fold to be significant.	
type0	YGR180C	Increased	In this study, mRNA abundance of these genes was specifically induced in response to the creation of a single unrepaired double strand break (DSB) in DNA by HO endonuclease cleavage.  These genes were related to the DNA damage responses that emerged from the DSB.  YJL026W/RNR2 and YGR180C/RNR4, in particular, are known DNA damage inducible ribonucleotide reductase subunits.  The authors considered a change in gene expression of at least 3-fold to be significant.	
type1	YCR040W	Decreased	The authors note that the mRNA levels of genes surrounding the site of HO cleavage at MAT (beginning with YCR040W/MATalpha1, YCR039C/MATalpha2, YCR038C/BUD5 and YCR042C/TSM1) all decrease,  as the ends of the double strand break (DSB) are resected by an exonuclease and these genes can no longer be transcribed.  The authors considered a change in gene expression of at least 3-fold to be significant.	
type1	YCR039C	Decreased	The authors note that the mRNA levels of genes surrounding the site of HO cleavage at MAT (beginning with YCR040W/MATalpha1, YCR039C/MATalpha2, YCR038C/BUD5 and YCR042C/TSM1) all decrease,  as the ends of the double strand break (DSB) are resected by an exonuclease and these genes can no longer be transcribed.  The authors considered a change in gene expression of at least 3-fold to be significant.	
type1	YCR038C	Decreased	The authors note that the mRNA levels of genes surrounding the site of HO cleavage at MAT (beginning with YCR040W/MATalpha1, YCR039C/MATalpha2, YCR038C/BUD5 and YCR042C/TSM1) all decrease,  as the ends of the double strand break (DSB) are resected by an exonuclease and these genes can no longer be transcribed.  The authors considered a change in gene expression of at least 3-fold to be significant.	
type1	YCR042C	Decreased	The authors note that the mRNA levels of genes surrounding the site of HO cleavage at MAT (beginning with YCR040W/MATalpha1, YCR039C/MATalpha2, YCR038C/BUD5 and YCR042C/TSM1) all decrease,  as the ends of the double strand break (DSB) are resected by an exonuclease and these genes can no longer be transcribed.  The authors considered a change in gene expression of at least 3-fold to be significant.