tag:blogger.com,1999:blog-29257715.post4314777472984222343..comments2023-10-26T04:59:09.604+05:30Comments on Physiology physics woven fine: An Overview of Gene TherapyAmiyaMaxhttp://www.blogger.com/profile/15377884408239081072noreply@blogger.comBlogger2125tag:blogger.com,1999:blog-29257715.post-84728827597529933212009-03-24T00:04:00.000+05:302009-03-24T00:04:00.000+05:30Tobias, honestly, I'm not an expert in this field....Tobias, honestly, I'm not an expert in this field. Techniques involving Zinc Finger or Leucine Zipper motif looks like a good idea to me. siRNAs, (which work at a downstream level); and epigenetic control is perhaps another option. Thanks for your feedback.AmiyaMaxhttps://www.blogger.com/profile/15377884408239081072noreply@blogger.comtag:blogger.com,1999:blog-29257715.post-78714138682440150742009-03-23T06:07:00.000+05:302009-03-23T06:07:00.000+05:30Great post (sorry for finding it almost 3 months a...Great post (sorry for finding it almost 3 months after you first posted it)! <BR/>What new enabling biotechnologies do you predict that will have the biggest impact in the gene therapy market in the future? I think that the Zinc Finger technology developed by Sangamo (http://www.sangamo.com/tech/tech_plat_over.html) provides a very interesting opportunity for future gene therapeutics. I would be interested to hear your thoughts about using ZF for this purpose...<BR/><BR/>Best regards,<BR/>TobiasAnonymoushttps://www.blogger.com/profile/06443034858057688474noreply@blogger.com