US2021108170A1
|
|
Phenotypic readout for edited sequences in live cells in automated instrumentation
|
US2021071167A1
|
|
Simultaneous multiplex genome editing in yeast
|
WO2021071746A1
|
|
Split crispr nuclease tethering system
|
US2021095243A1
|
|
Genome-wide rationally-designed mutations leading to enhanced tyrosine production in s. cerevisiae
|
WO2021034791A1
|
|
Optimizing high-throughput sequencing capacity
|
WO2021007080A1
|
|
Increased nucleic acid-guided cell editing via a lexa-rad51 fusion protein
|
WO2020257395A1
|
|
Genome-wide rationally-designed mutations leading to enhanced lysine production in e. coli
|
US2020399579A1
|
|
Flow through electroporation modules and instrumentation
|
US2020407732A1
|
|
Increased nucleic-acid guided cell editing in yeast
|
US10837021B1
|
|
Curing for recursive nucleic acid-guided cell editing
|
US10883095B1
|
|
Mad nucleases
|
WO2020198174A1
|
|
Simultaneous multiplex genome editing in yeast
|
US2020308562A1
|
|
Simultaneous multiplex genome editing in yeast
|
US2020199781A1
|
|
Nucleic acid-guided editing of exogenous polynucleotides in heterologous cells
|
WO2020180506A1
|
|
Nucleic acid-guided editing of exogenous polynucleotides in heterologous cells
|
US10689669B1
|
|
Automated multi-module cell processing methods, instruments, and systems
|
US10704033B1
|
|
Nucleic acid-guided nucleases
|
US2020071657A1
|
|
Instruments, modules, and methods for improved detection of edited sequences in live cells
|
US10604746B1
|
|
Engineered enzymes
|
US2020080045A1
|
|
Automated cell growth and/or concentration modules as stand-alone devices or for use in multi-module cell processing instrumentation
|