Add to ORKGPosition-weight matrices (PWMs) are broadly used to locate transcription factor binding sites in DNA sequences. The majority of existing PWMs provide a low level of both sensitivity and specificity. We present a new computational algorithm, a modification of the Staden–Bucher approach, that improves the PWM. We applied the proposed technique on the PWM of the GC-box, binding site for Sp1. The comparison of old and new PWMs shows that the latter increase both sensitivity and specificity. The statistical parameters of GC-box distribution in promoter regions and in the human genome, as well as in each chromosome, are presented. The majority of commonly used PWMs are the 4-row mononucleotide matrices, although 16-row dinucleotide matrices are k...
Transcription factor-DNA interactions, central to cellular regulation and control, are commonly desc...
A central issue in molecular biology is understanding the regulatory mechanisms that control gene ex...
A central issue in molecular biology is understanding the regulatory mechanisms that control gene ex...
Position-weight matrices (PWMs) are broadly used to locate transcription factor binding sites in DNA...
Position weight matrices (PWMs) have become a tool of choice for the identification of transcription...
Abstract Background Scoring DNA sequences against Pos...
Abstract Background The identifying of binding sites ...
Ab initio methods of DNA regulatory sequence region prediction known as transcription factor binding...
<div><p>Position weight matrices (PWMs) have become a tool of choice for the identification of trans...
Identifying transcription factor binding sites (TFBS) in silico is key in understanding gene regulat...
is key in understanding gene regulation. TFBS are string patterns that exhibit some variability, co...
In biological sequence research, the positional weight matrix (PWM) is often used to search for puta...
Computational identi®cation of transcription factor binding sites is an important research area of c...
In computational methods, position weight matrices (PWMs) are commonly applied for transcription fac...
Transcription factor-DNA interactions, central to cellular regulation and control, are commonly desc...
Transcription factor-DNA interactions, central to cellular regulation and control, are commonly desc...
A central issue in molecular biology is understanding the regulatory mechanisms that control gene ex...
A central issue in molecular biology is understanding the regulatory mechanisms that control gene ex...
Position-weight matrices (PWMs) are broadly used to locate transcription factor binding sites in DNA...
Position weight matrices (PWMs) have become a tool of choice for the identification of transcription...
Abstract Background Scoring DNA sequences against Pos...
Abstract Background The identifying of binding sites ...
Ab initio methods of DNA regulatory sequence region prediction known as transcription factor binding...
<div><p>Position weight matrices (PWMs) have become a tool of choice for the identification of trans...
Identifying transcription factor binding sites (TFBS) in silico is key in understanding gene regulat...
is key in understanding gene regulation. TFBS are string patterns that exhibit some variability, co...
In biological sequence research, the positional weight matrix (PWM) is often used to search for puta...
Computational identi®cation of transcription factor binding sites is an important research area of c...
In computational methods, position weight matrices (PWMs) are commonly applied for transcription fac...
Transcription factor-DNA interactions, central to cellular regulation and control, are commonly desc...
Transcription factor-DNA interactions, central to cellular regulation and control, are commonly desc...
A central issue in molecular biology is understanding the regulatory mechanisms that control gene ex...
A central issue in molecular biology is understanding the regulatory mechanisms that control gene ex...