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INSCRIPTA INC

Overview
  • Total Patents
    168
  • GoodIP Patent Rank
    8,607
  • Filing trend
    ⇧ 1000.0%
About

INSCRIPTA INC has a total of 168 patent applications. It increased the IP activity by 1000.0%. Its first patent ever was published in 2017. It filed its patents most often in United States, WIPO (World Intellectual Property Organization) and Australia. Its main competitors in its focus markets biotechnology, organic fine chemistry and chemical engineering are NINGBO FUTIAN BIOTECHNOLOGY CO LTD, KINTAROCELLSPOWER CO LTD and CELLS POWER CO LTD.

Patent filings per year

Chart showing INSCRIPTA INCs patent filings per year from 1900 to 2020

Top inventors

# Name Total Patents
#1 Masquelier Don 94
#2 Belgrader Phillip 90
#3 Bernate Jorge 71
#4 Garst Andrew 51
#5 Ness Kevin 32
#6 Fox Richard 29
#7 Chabansky Bruce 26
#8 Gill Ryan 23
#9 Graige Michael 17
#10 Kim Juhan 17

Latest patents

Publication Filing date Title
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