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SEEGENE INC

Overview
  • Total Patents
    424
  • GoodIP Patent Rank
    6,253
  • Filing trend
    ⇧ 12.0%
About

SEEGENE INC has a total of 424 patent applications. It increased the IP activity by 12.0%. Its first patent ever was published in 2001. It filed its patents most often in Republic of Korea, WIPO (World Intellectual Property Organization) and EPO (European Patent Office). Its main competitors in its focus markets biotechnology, computer technology and measurement are LEXOGEN GMBH, WUHAN HEALTHCARE BIOTECHNOLOGY CO LTD and AMERICAN MOLECULAR LABORATORIES INC.

Patent filings per year

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

Top inventors

# Name Total Patents
#1 Chun Jong Yoon 246
#2 Lee Young Jo 210
#3 Chun Jong-Yoon 48
#4 Lee Han Bit 47
#5 Hwang In Taek 29
#6 Kim Young Wook 26
#7 Jang Mi Hyun 17
#8 Kim Dae Young 15
#9 Ko Sung Moon 14
#10 Park Young Yong 14

Latest patents

Publication Filing date Title
WO2020251306A1 Computer-implemented method for collaborative development of reagents for detection of target nucleic acids
WO2020242261A1 Method for detecting target nucleic acid in sample
WO2020190035A1 Thermal cycler comprising sample holder assembly
WO2020175966A2 Methods for determining a designable region of oligonucleotides
WO2020175937A1 Light module
WO2020122679A1 Method for detecting a target analyte in a sample using an s-shaped function for a slope data set
EP3814522A1 Method for predicting the melting temperature of oligonucleotide
EP3814013A1 Thermal block
WO2019212238A1 Method for providing target nucleic acid sequence data set of target nucleic acid molecule
CN112004941A Method and apparatus for detecting multiple target nucleic acid sequences in a sample
KR20200111320A Apparatus for detecting a reaction of nucleic acid comprising optically non-reflective heating plate
KR20200104952A heating plate
WO2019135567A1 Method for determining the presence or absence of m. tuberculosis, m. bovis and m. bovis bcg in a sample
KR20200069180A Method for eluting a nucleic acid from a nucleic acid-bound particle
WO2019066572A2 Method and device for analyzing target analyte in sample
KR20200038338A Detection of target nucleic acid sequences by PTO cleavage and extension-dependent extension analysis
EP3676400A2 Evaluation of performance of components using a pair of dimer-forming primers
KR20200023547A Method for preparing oligonucleotides for detecting a plurality of target nucleic acid sequences with maximum target coverage
EP3690886A2 Amplification data display method and device
EP3655783A2 Modules for transferring magnetic beads, automated system comprising the same and method for nucleic acid extraction using the same