We use cookies to enhance the usability of our website. If you continue, we'll assume that you are happy to receive all cookies. More information. Don't show this again.
NCSTN
SECTIONS
  • TISSUE
  • BRAIN
  • SINGLE CELL TYPE
  • TISSUE CELL TYPE
  • PATHOLOGY
  • DISEASE
  • IMMUNE CELL
  • BLOOD PROTEIN
  • SUBCELLULAR
  • CELL LINE
  • STRUCTURE
  • METABOLIC
ABOUT
  • INTRODUCTION
  • HISTORY
  • ORGANIZATION
  • PUBLICATIONS
  • ANTIBODY SUBMISSION
  • ANTIBODY AVAILABILITY
  • ACKNOWLEDGMENTS
  • CONTACT
NEWS
  • NEWS ARTICLES
  • PRESS ROOM
LEARN
  • DICTIONARY
  • PROTEIN CLASSES
  • PROTEIN EVIDENCE
  • METHODS
  • EDUCATIONAL VIDEOS
DATA
  • DOWNLOADABLE DATA
  • PUBLICATION DATA
  • RELEASE HISTORY
  • SARS-COV-2
HELP
  • ANTIBODY VALIDATION
  • ASSAYS & ANNOTATION
  • DISCLAIMER
  • HELP & FAQ
  • PRIVACY STATEMENT
  • LICENCE & CITATION
Fields »
Search result

Field
Term
Gene name
Class
Subclass
Class
Keyword
Chromosome
External id
Tissue
Cell type
Expression
Patient ID
Tissue
Category
Cluster
Reliability
Brain region
Category
Brain region
Category
Brain region
Category
Reliability
Cell type
Category
Cluster
Tissue
Cell type
Enrichment
Cancer
Prognosis
Cancer
Category
Cell type
Category
Cell lineage
Category
Cluster
Annotation
Disease
Location
Searches
Location
Cell line
Type
Phase
Reliability
Cancer type
Category
Cluster
Pathway
Category
Score
Score
Score
Validation
Validation
Validation
Validation
Antibodies
Protein structure
In atlas
Column


  • SUMMARY

  • TISSUE

  • BRAIN

  • SINGLE CELL

  • TISSUE CELL

  • PATHOLOGY

  • DISEASE

  • IMMUNE

  • BLOOD

  • SUBCELL

  • CELL LINE

  • STRUCTURE

  • METABOLIC

  • NCSTN
IMMUNE CELL MONOCYTES Show tissue menu
B-CELLS DENDRITIC CELLS GRANULOCYTES MONOCYTES NK-CELLS PROGENITORS T-CELLS TOTAL PBMC
Immune cell proteome
Monocytes
MONOCYTES - Expression summary
Protein profiling
Multiplex tissuei

A summary of the protein localization in the current human tissue based on multiplex immunohistochemistry profiling in selected tissues is shown for genes where this analysis has been performed.

Protein expressioni

On the top, protein expression in current human tissue, based on all annotated cell types, is reported with the units not detected (n), low (l), medium (m) and high (h). Underneath, protein expression in each annotated cell type are reported using the same units.

Protein expression data is based on knowledge-based annotation. For genes where more than one antibody has been used, a collective score is set.

If knowledge-based annotation could not be performed for a gene, no data is displayed here. View antibody staining data further down this page.

Read more
No data
RNA expressioni

A summary of mRNA expression data available for current tissue based on several datasets. The mRNA expression levels in human tissues are based on RNA-seq data generated by the Human Protein Atlas (HPA), Genotype-Tissue Expression (GTEx) portal and CAGE data generated by the FANTOM5 consortium. Consensus normalized expression levels for human tissues was created by combining the data from HPA and GTEx datasets.

The mRNA expression levels in pig are based on RNA-seq data generated by the Human Protein Atlas (HPA), and for mouse, HPA data and in situ hybridization generated by the Allen brain atlas are reported.

Scroll down to view mRNA expression data in more detail.
Read more
HPA:79.6 nTPM
Monaco:267.2 nTPM
Schmiedel:117.8 TPM

MONOCYTES - HPA RNA-seqi

The RNA-seq details section shows detailed information about the individual samples used for the transcript profiling and results of the RNA-seq analysis.

Information about each individual sample is listed below. nTPM (normalized transcripts per million) values give a quantification of the gene abundance which is comparable between different genes and samples. Distribution across the dataset is visualized with box plots, shown as median and 25th and 75th percentiles. Points are displayed as outliers if they are above or below 1.5 times the interquartile range. nTPM values of the individual samples are presented next to the box plot.
Read more
Max nTPM 79.6
HPA sample nTPM
Classical monocyte
nTPM: 79.0
Samples: 6

Max nTPM: 121.0
Min nTPM: 57.0
P10809_1003 121.0
P10809_1020 84.2
P10809_1039 71.3
P10809_1058 57.0
P10809_1080 79.2
P10809_1107 61.3
Intermediate monocyte
nTPM: 79.0
Samples: 6

Max nTPM: 108.8
Min nTPM: 54.0
P10809_1004 82.1
P10809_1023 73.4
P10809_1042 93.1
P10809_1061 108.8
P10809_1081 62.8
P10809_1108 54.0
Non-classical monocyte
nTPM: 79.6
Samples: 5

Max nTPM: 159.3
Min nTPM: 38.8
P10809_1005 74.9
P10809_1053 69.3
P10809_1072 159.3
P10809_1082 38.8
P10809_1109 55.6

MONOCYTES - Monaco RNA-seqi

RNA-Seq data generated by Monaco et al is reported as average nTPM.

The RNA-seq details section shows detailed information about the individual samples used for the transcript profiling and results of the RNA-seq analysis.

Information about each individual sample is listed below. nTPM (normalized transcripts per million) values give a quantification of the gene abundance which is comparable between different genes and samples. Distribution across the dataset is visualized with box plots, shown as median and 25th and 75th percentiles. Points are displayed as outliers if they are above or below 1.5 times the interquartile range. nTPM values of the individual samples are presented next to the box plot.

Read more
Max nTPM 267.2
Monaco sample nTPM
Classical monocyte
nTPM: 267.2
Samples: 4

Max nTPM: 306.4
Min nTPM: 231.8
RHH5313_R3680 295.9
RHH5221_R3593 306.4
RHH5250_R3622 231.8
RHH5279_R3651 234.7
Intermediate monocyte
nTPM: 216.5
Samples: 4

Max nTPM: 262.6
Min nTPM: 178.4
RHH5314_R3681 202.8
RHH5222_R3594 262.6
RHH5251_R3623 178.4
RHH5280_R3652 222.3
Non-classical monocyte
nTPM: 199.5
Samples: 4

Max nTPM: 236.9
Min nTPM: 170.3
RHH5315_R3682 179.0
RHH5223_R3595 236.9
RHH5252_R3624 170.3
RHH5281_R3653 211.9

MONOCYTES - Schmiedel RNA-seqi

RNA-Seq data generated by Schmiedel et al is reported as average TPM.

The RNA-seq details section shows detailed information about the individual samples used for the transcript profiling and results of the RNA-seq analysis.

Information about each individual sample is listed below. TPM (transcripts per million) values give a quantification of the gene abundance which is comparable between different genes and samples. Distribution across the dataset is visualized with box plots, shown as median and 25th and 75th percentiles. Points are displayed as outliers if they are above or below 1.5 times the interquartile range. TPM values of the individual samples are presented next to the box plot.

Read more
Max TPM 117.8
Schmiedel sample id TPM
Classical monocyte
TPM: 117.8
Samples: 106

Max TPM: 145.1
Min TPM: 96.5
MONOCYTES_1 145.1
MONOCYTES_2 141.4
MONOCYTES_3 139.8
MONOCYTES_4 138.1
MONOCYTES_5 135.9
MONOCYTES_6 135.1
MONOCYTES_7 134.0
MONOCYTES_8 133.7
MONOCYTES_9 133.0
MONOCYTES_10 133.0
MONOCYTES_11 131.3
MONOCYTES_12 131.1
MONOCYTES_13 130.4
MONOCYTES_14 129.3
MONOCYTES_15 128.9
MONOCYTES_16 128.6
MONOCYTES_17 128.5
MONOCYTES_18 128.3
MONOCYTES_19 128.2
MONOCYTES_20 128.1
MONOCYTES_21 127.3
MONOCYTES_22 127.2
MONOCYTES_23 127.2
MONOCYTES_24 127.2
MONOCYTES_25 127.0
MONOCYTES_26 127.0
MONOCYTES_27 126.9
MONOCYTES_28 125.7
MONOCYTES_29 125.6
MONOCYTES_30 125.1
MONOCYTES_31 124.9
MONOCYTES_32 124.0
MONOCYTES_33 123.9
MONOCYTES_34 123.5
MONOCYTES_35 123.1
MONOCYTES_36 123.0
MONOCYTES_37 122.6
MONOCYTES_38 122.3
MONOCYTES_39 122.1
MONOCYTES_40 122.0
MONOCYTES_41 121.7
MONOCYTES_42 120.3
MONOCYTES_43 120.3
MONOCYTES_44 119.5
MONOCYTES_45 119.0
MONOCYTES_46 118.6
MONOCYTES_47 118.1
MONOCYTES_48 118.1
MONOCYTES_49 117.9
MONOCYTES_50 117.9
MONOCYTES_51 117.6
MONOCYTES_52 117.5
MONOCYTES_53 117.4
MONOCYTES_54 116.6
MONOCYTES_55 116.4
MONOCYTES_56 116.0
MONOCYTES_57 116.0
MONOCYTES_58 115.9
MONOCYTES_59 115.8
MONOCYTES_60 115.6
MONOCYTES_61 114.6
MONOCYTES_62 114.5
MONOCYTES_63 114.3
MONOCYTES_64 114.0
MONOCYTES_65 113.9
MONOCYTES_66 113.4
MONOCYTES_67 113.3
MONOCYTES_68 113.2
MONOCYTES_69 112.3
MONOCYTES_70 112.1
MONOCYTES_71 111.9
MONOCYTES_72 111.6
MONOCYTES_73 111.6
MONOCYTES_74 111.4
MONOCYTES_75 111.3
MONOCYTES_76 110.8
MONOCYTES_77 110.8
MONOCYTES_78 109.4
MONOCYTES_79 109.3
MONOCYTES_80 109.1
MONOCYTES_81 108.5
MONOCYTES_82 108.5
MONOCYTES_83 108.4
MONOCYTES_84 108.3
MONOCYTES_85 108.3
MONOCYTES_86 108.3
MONOCYTES_87 107.8
MONOCYTES_88 107.8
MONOCYTES_89 107.5
MONOCYTES_90 106.2
MONOCYTES_91 106.1
MONOCYTES_92 106.1
MONOCYTES_93 106.0
MONOCYTES_94 106.0
MONOCYTES_95 105.4
MONOCYTES_96 105.0
MONOCYTES_97 104.6
MONOCYTES_98 104.2
MONOCYTES_99 103.1
MONOCYTES_100 103.0
MONOCYTES_101 102.7
MONOCYTES_102 102.0
MONOCYTES_103 101.4
MONOCYTES_104 100.8
MONOCYTES_105 97.1
MONOCYTES_106 96.5
Show allShow less
Non-classical monocyte
TPM: 93.4
Samples: 105

Max TPM: 112.9
Min TPM: 77.2
M2_1 112.9
M2_2 112.1
M2_3 110.3
M2_4 105.2
M2_5 104.5
M2_6 104.3
M2_7 103.6
M2_8 102.7
M2_9 102.0
M2_10 101.4
M2_11 100.7
M2_12 100.3
M2_13 100.3
M2_14 100.2
M2_15 99.9
M2_16 99.8
M2_17 99.7
M2_18 99.7
M2_19 99.0
M2_20 98.7
M2_21 98.5
M2_22 98.4
M2_23 98.4
M2_24 98.3
M2_25 98.3
M2_26 98.1
M2_27 97.6
M2_28 97.4
M2_29 97.3
M2_30 97.1
M2_31 96.8
M2_32 96.7
M2_33 96.6
M2_34 96.6
M2_35 96.5
M2_36 96.4
M2_37 96.3
M2_38 96.1
M2_39 96.1
M2_40 96.0
M2_41 95.5
M2_42 95.1
M2_43 94.9
M2_44 94.7
M2_45 94.6
M2_46 94.5
M2_47 94.5
M2_48 94.5
M2_49 94.4
M2_50 94.3
M2_51 94.2
M2_52 94.2
M2_53 94.2
M2_54 93.7
M2_55 93.7
M2_56 93.6
M2_57 93.5
M2_58 93.3
M2_59 93.2
M2_60 93.1
M2_61 93.0
M2_62 92.9
M2_63 92.5
M2_64 92.1
M2_65 91.2
M2_66 91.2
M2_67 90.8
M2_68 90.7
M2_69 90.5
M2_70 90.4
M2_71 90.3
M2_72 90.1
M2_73 89.9
M2_74 89.8
M2_75 88.5
M2_76 88.5
M2_77 88.3
M2_78 88.3
M2_79 88.0
M2_80 87.9
M2_81 87.8
M2_82 87.6
M2_83 87.4
M2_84 87.3
M2_85 87.2
M2_86 87.0
M2_87 87.0
M2_88 86.9
M2_89 86.6
M2_90 86.5
M2_91 86.4
M2_92 86.0
M2_93 85.9
M2_94 85.9
M2_95 85.3
M2_96 85.0
M2_97 84.1
M2_98 83.1
M2_99 83.0
M2_100 82.5
M2_101 82.5
M2_102 81.7
M2_103 78.3
M2_104 77.4
M2_105 77.2
Show allShow less

Contact

  • NEWS ARTICLES
  • PRESS ROOM
  • contact@proteinatlas.org

The Project

  • INTRODUCTION
  • ORGANIZATION
  • PUBLICATIONS

The Human Protein Atlas

  • DOWNLOADABLE DATA
  • LICENCE & CITATION
  • HELP & FAQ
The Human Protein Atlas project is funded
by the Knut & Alice Wallenberg Foundation.