VLSI implementation of anti‐notch lattice structure for identification of exon regions in Eukaryotic genes
In a Eukaryotic gene, identification of exon regions is crucial for protein formation. The
periodic‐3 property of exon regions has been used for its identification. An anti‐notch infinite …
periodic‐3 property of exon regions has been used for its identification. An anti‐notch infinite …
[PDF][PDF] VLSI implementation of anti-notch lattice structure for identification of exon regions in Eukaryotic genes
V Pathak, SJ Nanda, AM Joshi, SS Sahu - 2020 - scholar.archive.org
In a Eukaryotic gene, identification of exon regions is crucial for protein formation. The
periodic-3 property of exon regions has been used for its identification. An anti-notch infinite …
periodic-3 property of exon regions has been used for its identification. An anti-notch infinite …
VLSI implementation of anti-notch lattice structure for identification of exon regions in Eukaryotic genes
V Pathak, SJ Nanda, AM Joshi, SS Sahu - IET Computers & Digital Techniques, 2020 - IET
In a Eukaryotic gene, identification of exon regions is crucial for protein formation. The
periodic-3 property of exon regions has been used for its identification. An anti-notch infinite …
periodic-3 property of exon regions has been used for its identification. An anti-notch infinite …
VLSI implementation of anti‐notch lattice structure for identification of exon regions in Eukaryotic genes.
V Pathak, SJ Nanda, AM Joshi… - IET Computers & Digital …, 2020 - search.ebscohost.com
In a Eukaryotic gene, identification of exon regions is crucial for protein formation. The
periodic‐3 property of exon regions has been used for its identification. An anti‐notch infinite …
periodic‐3 property of exon regions has been used for its identification. An anti‐notch infinite …