When first introduced, antisense oligonucleotides were hailed as the long awaited magic bullet that would provide an unprecedented level of specificity in controlling gene expression. Following this initial enthusiasm, antisense oligonucleotides have been maligned as nonspecific, toxic, and essentially useless. However, application of antisense oligonucleotide technology in the nervous system stands apart from the use of this technique in peripheral systems, largely because of its enormous success. The source of this success remains a matter of some controversy. Modulating Gene...
When first introduced, antisense oligonucleotides were hailed as the long awaited magic bullet that would provide an unprecedented level of specificit...
Sequence-specific DNA binding ligands, amongst which triple helix forming oligonucleotides are the most efficient as yet, represent promising tools in a number of fields. One of their most promising applications is as antiviral tools: they can specifically target a viral gene, even if it is integrated into the host genome, and be used to specifically inactivate the viral gene or even destroy the cells harboring this gene. However, from science fiction to science there remains a gap; and we are at the moment on the threshold of this fascinating field. Triple Helix Forming...
Sequence-specific DNA binding ligands, amongst which triple helix forming oligonucleotides are the most efficient as yet, represent promising tools in...
Restenosis, the proliferation of smooth muscle cells (SMC) that line blood vessels, often follows angioplasty. Despite advances in cardiology, restenosis continues to affect up to 40% of the over 500,000 patients who undergo angioplasty each year. Applications of Antisense Therapies to Restenosis is the first volume to address the potential of using antisense therapies to inhibit the restenosis that occurs after percutaneous transluminal angioplasty and coronary stenting. The work critically examines the application of various antisense therapies for inhibiting restenosis.
Restenosis, the proliferation of smooth muscle cells (SMC) that line blood vessels, often follows angioplasty. Despite advances in cardiology, resteno...
In the past few years, antisense methodology has moved from in vitro studies to in vivo studies and first human trials. While the basic concept of antisense technology is simple, the methodological problems associated with its use are numerous and complex. Antisense- based methods have proven to be a field of research where careful attention to experimental protocols and appropriate controls is necessary. The Manual of Antisense Methodology emphasizes the application of antisense oligonucleotides, and is a guide for the identification of antisense and...
In the past few years, antisense methodology has moved from in vitro studies to in vivo studies and first human trials. While the ba...
When first introduced, antisense oligonucleotides were hailed as the long awaited magic bullet that would provide an unprecedented level of specificity in controlling gene expression. Following this initial enthusiasm, antisense oligonucleotides have been maligned as nonspecific, toxic, and essentially useless. However, application of antisense oligonucleotide technology in the nervous system stands apart from the use of this technique in peripheral systems, largely because of its enormous success. The source of this success remains a matter of some controversy. Modulating Gene...
When first introduced, antisense oligonucleotides were hailed as the long awaited magic bullet that would provide an unprecedented level of specificit...
In the past few years, antisense methodology has moved from in vitro studies to in vivo studies and first human trials. While the basic concept of antisense technology is simple, the methodological problems associated with its use are numerous and complex. Antisense- based methods have proven to be a field of research where careful attention to experimental protocols and appropriate controls is necessary. The Manual of Antisense Methodology emphasizes the application of antisense oligonucleotides, and is a guide for the identification of antisense and...
In the past few years, antisense methodology has moved from in vitro studies to in vivo studies and first human trials. While the ba...
Sequence-specific DNA binding ligands, amongst which triple helix forming oligonucleotides are the most efficient as yet, represent promising tools in a number of fields. One of their most promising applications is as antiviral tools: they can specifically target a viral gene, even if it is integrated into the host genome, and be used to specifically inactivate the viral gene or even destroy the cells harboring this gene. However, from science fiction to science there remains a gap; and we are at the moment on the threshold of this fascinating field. Triple Helix Forming...
Sequence-specific DNA binding ligands, amongst which triple helix forming oligonucleotides are the most efficient as yet, represent promising tools in...
Restenosis, the proliferation of smooth muscle cells (SMC) that line blood vessels, often follows angioplasty. Despite advances in cardiology, restenosis continues to affect up to 40% of the over 500,000 patients who undergo angioplasty each year. Applications of Antisense Therapies to Restenosis is the first volume to address the potential of using antisense therapies to inhibit the restenosis that occurs after percutaneous transluminal angioplasty and coronary stenting. The work critically examines the application of various antisense therapies for inhibiting restenosis.
Restenosis, the proliferation of smooth muscle cells (SMC) that line blood vessels, often follows angioplasty. Despite advances in cardiology, resteno...
