Post# 642057 of 642390 BNGO...9437...Trying Red to Green...🥳
georgie18
Member Level Re: georgie18 post# 641611
Thursday, May 02, 2024 8:30:26 AM
Post# 641980 of 642056 BNGO...9801...Reversing off my >81 Alert...🥳
georgie18
Member Level Re: georgie18 post# 641553
Monday, April 29, 2024 1:54:48 PM
Post# 641611 of 641979 BNGO...86...Reversing Off the .81 range alert...🥳
georgie18
Member Level Re: None
Monday, April 29, 2024 10:36:10 AM
Post# 641553 of 641610 BNGO...8177... https://schrts.co/ECdksHQp ...Reversal setting up here...imo...we shall see...🥳
georgie18
Member Level Re: georgie18 post# 640994
Friday, April 26, 2024 2:40:07 PM
Post# 641451 of 641553 BNGO...7759...Off my .81 Alert...🥳Hold off the solid news on the 24th...
georgie18
Member Level Re: None
Wednesday, April 24, 2024 8:32:25 AM
Post# 640994 of 641450 BNGO...81... https://schrts.co/RMSicHgq ...NEWS...SAN DIEGO, April 24, 2024 (GLOBE NEWSWIRE) -- Bionano Genomics, Inc. (Nasdaq: BNGO), today announced the results of an implementation study conducted by researchers at University Medical Center Groningen that compared optical genome mapping (OGM) to traditional cytogenetic methods for the detection of structural variants (SVs) in bone marrow aspirate (BMA) samples. OGM has been shown to regularly detect SVs missed by other methods, as a result of the higher resolution and sensitivity of OGM. Some of OGM’s novel findings, however, are difficult for other methods to validate, because of their resolution limitations. In this paper, researchers used OGM to detect variants in the BMA samples that were missed by traditional methods, and then applied targeted Cas9-directed Nanopore sequencing to validate the variants detected with OGM and define the breakpoints at the base pair level. The study results highlight OGM’s ability to provide researchers with a more comprehensive understanding of leukemia subtypes and the potential of targeted Cas9-directed Nanopore sequencing to validate new findings efficiently and at high resolution, compared to other genome analysis methods, including short read or other long read sequencing methods.