Recent FPbase Activity

Most Viewed Proteins

As a percentage of total protein page views.
  1. mCherry 5.9%
  2. EGFP 5.7%
  3. mScarlet 3.4%
  4. avGFP 2.7%
  5. mNeonGreen 2.7%
  6. Superfolder GFP 2.4%
  7. tdTomato 2.0%
  8. mScarlet3 1.8%
  9. DsRed 1.7%
  10. Venus 1.7%
  11. mScarlet3-H 1.6%
  12. mVenus 1.5%

Most Favorited Proteins

  1. mCherry 206
  2. EGFP 151
  3. mNeonGreen 140
  4. mScarlet 105
  5. tdTomato 94
  6. mTagBFP2 89
  7. mTurquoise2 81
  8. mScarlet-I 74
  9. Superfolder GFP 71
  10. mVenus 52
  11. mKate2 48
  12. EYFP 48
  13. TagBFP 43
  14. mScarlet3 37
  15. DsRed 36
  16. mEGFP 34
  17. mTFP1 34
  18. GCaMP6f 33

Recently Published

mScarlet3-S2 spectrum

mScarlet3-S2

published: Dec 24, 2024

Xu et al. (2024) A highly photostable monomeric red fluorescent protein. . doi:10.21203/rs.3.rs-5629743/v1. Article

mScarlet3-H spectrum

mScarlet3-H

published: Sep 16, 2024

Fu et al. (2024) mYongHong: a structure-guided design of stable and monomeric red fluorescent protein. . doi:10.21203/rs.3.rs-4718585/v1. Article

mLychee spectrum

mLychee

published: Mar 29, 2024

Fraikin et al. (2024) A palette of bright and photostable monomeric fluorescent proteins for bacterial time-lapse imaging. . doi:10.1101/2024.03.28.587235. Article

mLemon spectrum

mLemon

published: Mar 29, 2024

Fraikin et al. (2024) A palette of bright and photostable monomeric fluorescent proteins for bacterial time-lapse imaging. . doi:10.1101/2024.03.28.587235. Article

mChartreuse spectrum

mChartreuse

published: Mar 29, 2024

Fraikin et al. (2024) A palette of bright and photostable monomeric fluorescent proteins for bacterial time-lapse imaging. . doi:10.1101/2024.03.28.587235. Article

mJuniper spectrum

mJuniper

published: Mar 29, 2024

Fraikin et al. (2024) A palette of bright and photostable monomeric fluorescent proteins for bacterial time-lapse imaging. . doi:10.1101/2024.03.28.587235. Article

mBaoJin spectrum

mBaoJin

published: Feb 26, 2024

Zhang et al. (2024) Bright and stable monomeric green fluorescent protein derived from StayGold. Nature Methods. doi:10.1038/s41592-024-02203-y. Article   Pubmed

StayGold-E138D spectrum

StayGold-E138D

published: Dec 11, 2023

Ivorra-Molla et al. (2023) A monomeric StayGold fluorescent protein. Nature Biotechnology. doi:10.1038/s41587-023-02018-w. Article

td8oxStayGold

published: Nov 30, 2023

Ando et al. (2023) StayGold variants for molecular fusion and membrane-targeting applications. Nature Methods. doi:10.1038/s41592-023-02085-6. Article   Pubmed

QC2-6

published: Nov 30, 2023

Ando et al. (2023) StayGold variants for molecular fusion and membrane-targeting applications. Nature Methods. doi:10.1038/s41592-023-02085-6. Article   Pubmed

mStayGold2 spectrum

mStayGold2

published: Nov 30, 2023

Ando et al. (2023) StayGold variants for molecular fusion and membrane-targeting applications. Nature Methods. doi:10.1038/s41592-023-02085-6. Article   Pubmed

mStayGold spectrum

mStayGold

published: Nov 30, 2023

Ando et al. (2023) StayGold variants for molecular fusion and membrane-targeting applications. Nature Methods. doi:10.1038/s41592-023-02085-6. Article   Pubmed

AF488

published: Nov 30, 2023

Ando et al. (2023) StayGold variants for molecular fusion and membrane-targeting applications. Nature Methods. doi:10.1038/s41592-023-02085-6. Article   Pubmed

td5oxStayGold

published: Nov 30, 2023

Ando et al. (2023) StayGold variants for molecular fusion and membrane-targeting applications. Nature Methods. doi:10.1038/s41592-023-02085-6. Article   Pubmed

td5StayGold

published: Nov 30, 2023

Ando et al. (2023) StayGold variants for molecular fusion and membrane-targeting applications. Nature Methods. doi:10.1038/s41592-023-02085-6. Article   Pubmed

Recently Added to FPbase

PPCUM

added: Apr 23, 2025

Paskin (1999) Toward unique identifiers. Proceedings of the IEEE. doi:10.1109/5.771073. Article

ONPG

added: Apr 7, 2025

Zhang et al. (2009) Use of the contour approach for visualizing the dynamic behavior of intermediates during O-nitrophenyl-β-d-galactoside hydrolysis by β-galactosidase. Process Biochemistry. doi:10.1016/j.procbio.2009.07.015. Article

mGold2t

added: Mar 27, 2025

mGold2s

added: Mar 27, 2025

Bluebonnet2

added: Mar 5, 2025

Shroff et al. (2020) Discovery of Novel Gain-of-Function Mutations Guided by Structure-Based Deep Learning. ACS Synthetic Biology. doi:10.1021/acssynbio.0c00345. Article   Pubmed

FAST + HBR 3,5 DOM spectrum

FAST + HBR 3,5 DOM

added: Jan 20, 2025

Benaissa et al. (2021) Engineering of a fluorescent chemogenetic reporter with tunable color for advanced live-cell imaging. Nature Communications. doi:10.1038/s41467-021-27334-0. Article   Pubmed

FAST + HBR 3,5 DM spectrum

FAST + HBR 3,5 DM

added: Jan 20, 2025

Benaissa et al. (2021) Engineering of a fluorescent chemogenetic reporter with tunable color for advanced live-cell imaging. Nature Communications. doi:10.1038/s41467-021-27334-0. Article   Pubmed

FAST + HMBR spectrum

FAST + HMBR

added: Jan 20, 2025

Plamont et al. (2015) Small fluorescence-activating and absorption-shifting tag for tunable protein imaging in vivo. Proceedings of the National Academy of Sciences. doi:10.1073/pnas.1513094113. Article   Pubmed

FAST

added: Jan 20, 2025

Plamont et al. (2015) Small fluorescence-activating and absorption-shifting tag for tunable protein imaging in vivo. Proceedings of the National Academy of Sciences. doi:10.1073/pnas.1513094113. Article   Pubmed

pFAST

added: Jan 16, 2025

Benaissa et al. (2021) Engineering of a fluorescent chemogenetic reporter with tunable color for advanced live-cell imaging. Nature Communications. doi:10.1038/s41467-021-27334-0. Article   Pubmed

pFAST + HBR 3,5 DOM spectrum

pFAST + HBR 3,5 DOM

added: Jan 15, 2025

Benaissa et al. (2021) Engineering of a fluorescent chemogenetic reporter with tunable color for advanced live-cell imaging. Nature Communications. doi:10.1038/s41467-021-27334-0. Article   Pubmed

pFAST + HBR 2,5 DM spectrum

pFAST + HBR 2,5 DM

added: Jan 15, 2025

Bottone et al. (2023) A fluorogenic chemically induced dimerization technology for controlling, imaging and sensing protein proximity. Nature Methods. doi:10.1038/s41592-023-01988-8. Article   Pubmed

pFAST + HMBR spectrum

pFAST + HMBR

added: Jan 15, 2025

Benaissa et al. (2021) Engineering of a fluorescent chemogenetic reporter with tunable color for advanced live-cell imaging. Nature Communications. doi:10.1038/s41467-021-27334-0. Article   Pubmed

mScarlet3-S2 spectrum

mScarlet3-S2

added: Jan 12, 2025

Xu et al. (2024) A highly photostable monomeric red fluorescent protein. . doi:10.21203/rs.3.rs-5629743/v1. Article

ccGFP E6 spectrum

ccGFP E6

added: Jan 3, 2025

Nguyen et al. (2021) Engineering an efficient and bright split Corynactis californica green fluorescent protein. Scientific Reports. doi:10.1038/s41598-021-98149-8. Article   Pubmed

Free Use GFP

added: Dec 5, 2024
mScarlet3-H spectrum

mScarlet3-H

added: Nov 6, 2024

Fu et al. (2024) mYongHong: a structure-guided design of stable and monomeric red fluorescent protein. . doi:10.21203/rs.3.rs-4718585/v1. Article

mWatermelon spectrum

mWatermelon

added: Sep 27, 2024

Gohil et al. (2023) Biosensor Optimization Using a Förster Resonance Energy Transfer Pair Based on mScarlet Red Fluorescent Protein and an mScarlet-Derived Green Fluorescent Protein. ACS Sensors. doi:10.1021/acssensors.2c01730. Article   Pubmed