Introduction

This tutorial describes how the ImmPort Data Uploader parses the population definition reported column (Gating Definition Reported) in the templates upload templates FCM_Derived_data.txt and CyTOF_Derived_data.txt to generate the content of the fcs_analyzed_result_marker database table and determination of the population definition preferred database column (fcs_analyzed_result.population_defnition_preferred). The Uploader uses a BNF (Backus-Naur form) grammar for parsing the templates column. The BNF grammar is specified below. Once a column is parsed, then it is processed the Uploader uses the provided Appendices, Appendix A Analyte Markers and Appendix B Non-Analyte Markers, to map the parse form into the fcs_analyzed_result_marker table and to generate a preferred form if all the components have preferred values. Several parsing examples are provided in the Parsing Examples Section.

BNF Grammar for Gating Definition Reported

The basic grammar for the template column Gating Definition Reported is specified as follows. BNF categories are always identified by the angle-bracket notation (<..>). Several BNF specifications below contain regular-expressions defining the tokens of the grammar. These elements use single quoted expressions ('...').

Population Name Gating Definition BNF

<population_name_gating_definition>
    ::= <population_element>(<population_separator><population_element>)*

Population Element BNF

<population_element> ::=   <ignore_patterns>
                         | <special_patterns>
                         | <marker_element>

Marker Element BNF

<marker_element> ::= (<prefix>)?(<marker>)(<expression_value>)?(<suffix>)?

Marker BNF

Appendix A Analyte Markers contains the current list of analyte markers.

Appendix B Non-Analyte Markers contains the list of current non-analyte markers.

<analyte_marker>     ::=   lk_analyte.gene_symbol 
                         | lk_analyte.immunology_gene_symbol
                         | lk_analyte_pref_mapping.analyte_reported 
<non_analyte_marker> ::=   lk_cell_population_marker.name
                         | lk_cell_pop_pref_mapping.marker_reported
<unknown_marker>     ::= '.+'
<marker>             ::=   <analyte_marker>
                         | <non_analyte_marker>
                         | <unknown_marker>

Prefix BNF

The order below is the order for determining the prefix value.

<q_prefix>           ::= '^(Q\d+: +)(.+)$'
<q_no_space_prefix>  ::= '^(Q\d+:)(.+)$'
<b_cell_prefix>      ::= '^(B cell: +)(.+)$'
<b_lym_prefix>       ::= '^(B lym +)(.+)$'
<colon_prefix>       ::= '^(: +)(.+)$'
<granulo_prefix>     ::= '^(Granulo: +)(.+)$'
<lin1_minus_prefix>  ::= '^(Lin1\-)(.+)$'
<lin2_minus_prefix>  ::= '^(Lin2\-)(.+)$'
<lymph_prefix>       ::= '^(Lymph +)(.+)$'
<minus_grans_prefix> ::= '^(minus grans\-)(.+)$'
<mono_prefix>        ::= '^(Mono: +)(.+)$'
<mo_prefix>          ::= '^(mo\-)(.+)$'
<neu_prefix>         ::= '^(Neu\-)(.+)$'
<nk_nkt_prefix>      ::= '^(NK-NKT: +)(.+)$'
<nonbasophil_prefix> ::= '^(Nonbasophil +)(.+)$'
<non_bt_prefix>      ::= '^(Non BT: +)(.+)$'
<non_naive_prefix>   ::= '^(Non\-naive +)(.+)$'
<nq_prefix>          ::= '^(nQ\d+: +)(.+)$'
<n_prefix>           ::= '^(n)(.+)$'
<sing_minus_prefix>  ::= '^(sing\-)(.+)$'
<small_prefix>       ::= '^(small +)(.+)$'
<two_minus_prefix>   ::= '^(2\-)(.+)$'

<prefix>             ::=   <q_prefix> | <q_no_space_prefix>
                         | <b_cell_prefix> | <b_lym_prefix>
                         | <colon_prefix> | <granulo_prefix>
                         | <lin1_minus_prefix> | <lin2_minus_prefix>
                         | <lymph_prefix> | <minus_grans_prefix>
                         | <mono_prefix> | <mo_prefix>
                         | <neu_prefix> | <nk_nkt_prefix>
                         | <nonbasophil_prefix> | <non_bt_prefix>
                         | <non_naive_prefix> | <nq_prefix>
                         | <n_prefix> | <sing_minus_prefix>
                         | <small_prefix> | <two_minus_prefix>

Suffix BNF

The order below is the order for determining the prefix value.

<fmo_viable_suffix>  ::= '^(.+)( +FMO: +viable)$'
<viable_suffix>      ::= '^(.+)(: +viable)$'
<live_suffix>        ::= '^(.+)( +live)$'
<a_subset_suffix>    ::= '^(.+)(\-A +subset)$'
<h_subset_suffix>    ::= '^(.+)(\-H +subset)$'
<a_suffix>           ::= '^(.+)(\-A)$'
<h_suffix>           ::= '^(.+)(\-H)$'
<naive_suffix>       ::= '^(.+)( +Naive)$'
<granulocyte_suffix> ::= '^(.+)( +granulocyte)$'
<neutrophil_suffix>  ::= '^(.+)( +neutrophil)$'
<t_cells_suffix>     ::= '^(.+)( +T cells)$'
<pmo_suffix>         ::= '^(.+)(_pmo)$'
<p_suffix>           ::= '^(.+)(_pP)$'
<rad_suffix>         ::= '^(.+)(RAD)$'

<suffix>             ::=   <fmo_viable_suffix> | <viable_suffix>
                         | <live_suffix> | <a_subset_suffix>
                         | <h_subset_suffix> | <a_suffix>
                         | <h_suffix> | <naive_suffix>
                         | <granulocyte_suffix> | <neutrophil_suffix>
                         | <t_cells_suffix> | <pmo_suffix>
                         | <p_suffix> | <rad_suffix>

Expression Value BNF

The order below is the order for determining the expression value.

<br_expression_value>                 ::= 'br'
<bri_expression_value>                ::= 'bri'
<bright_expression_value>             ::= 'bright'
<bright_upper_expression_value>       ::= 'Bright'
<di_expression_value>                 ::= 'di'
<dim_expression_value>                ::= 'dim'
<hi_expression_value>                 ::= 'hi'
<high_expression_value>               ::= 'high'
<high_hyphen_expression_value>        ::= '\-high'
<high_paren_expression_value>         ::= '\(high\)'
<int_expression_value>                ::= 'int'
<intermediate_expression_value>       ::= 'intermediate'
<lo_expression_value>                 ::= 'lo'
<lo_upper_expression_value>           ::= 'LO'
<low_expression_value>                ::= 'low'
<low_hyphen_expression_value>         ::= '\-low'
<low_paren_expression_value>          ::= '\(low\)'
<med_high_expression_value>           ::= 'med'
<medium_expression_value>             ::= 'medium'
<medium_hyphen_expression_value>      ::= '\-medium'
<medium_paren_expression_value>       ::= '\(medium\)'
<minus_expression_value>              ::= '\-'
<neg_expression_value>                ::= 'neg'
<negative_expression_value>           ::= 'negative'
<plus_expression_value>               ::= '\+'
<plus_minus_expression_value>         ::= '\+\-'
<plus_plus_expression_value>          ::= '\+\+'
<plus_tilde_expression_value>         ::= '\+~'
<pos_expression_value>                ::= 'pos'
<positive_expression_value>           ::= 'positive'
<upper_high_expression_value>         ::= 'High'
<upper_intermediate_expression_value> ::= 'Intermediate'
<upper_negative_expression_value>     ::= 'Negative'
<upper_positive_expression_value>     ::= 'Postive'

<expression_value> ::=
      <br_expression_value> | <bri_expression_value>
    | <bright_expression_value> | <bright_upper_expression_value>
    | <di_expression_value> | <dim_expression_value>
    | <hi_expression_value> | <high_expression_value>
    | <high_hyphen_expression_value> | <high_paren_expression_value>
    | <int_expression_value> | <intermediate_expression_value>
    | <lo_expression_value> | <lo_upper_expression_value>
    | <low_expression_value> | <low_hyphen_expression_value>
    | <low_paren_expression_value> | <med_high_expression_value>
    | <medium_expression_value> | <medium_hyphen_expression_value>
    | <medium_paren_expression_value> | <minus_expression_value>
    | <neg_expression_value> | <negative_expression_value>
    | <plus_expression_value> | <plus_minus_expression_value>
    | <plus_plus_expression_value> | <plus_tilde_expression_value>
    | <pos_expression_value> | <positive_expression_value>
    | <upper_high_expression_value> | <upper_intermediate_expression_value>
    | <upper_negative_expression_value> | <upper_positive_expression_value>

Ignore Patterns BNF

The order below is the order for determining ignore pattern. An example of an ignore patterns are provided in Example 1, and Example10 below.

<plus_minus_ignore>      ::= '^.+(\+|\-)( (\+|\-))+$'
<intact_cells_ignore>    ::= '^Intact +cells$'
<intact_singlets_ignore> ::= '^[iI]ntact +singlets$'
<viable_singlets_ignore> ::= '^viable +singlets$'
<singlets_ignore>        ::= '^[sS]inglets$'
<singlet_ignore>         ::= '^[sS]inglet$'
<lymph_ignore>           ::= '^Lymph$'
<nonbasophils_ignore>    ::= '^Nonbasophils$'
<1_17_ignore>            ::= '^.*1\-17.*$'

<ignore_patterns>        ::=   <plus_minus_ignore> | <intact_cells_ignore>
                             | <intact_singlets_ignore> | <viable_singlets_ignore>
                             | <singlets_ignore> | <singlet_ignore>
                             | <lymph_ignore> | <nonbasophils_ignore>
                             | <1_17_ignore>

Special Patterns BNF

<special_patterns>                ::=   <multiple_markers_comma_pattern>
                                      | <multiple_markers_pattern>
                                      | <either_or_pattern>
                                      | <multiple_markers_n_p_pattern>
                                      | <minus_markers_pattern>

Multiple Markers Comma Special Pattern (e.g., CD3,56,19,14+)

See Example 11 below.

<multiple_markers_comma_pattern>  ::= '^[A-Za-z0-9]+(,\d+)+(\+|\-)$'

Multiple Markers Special Pattern (e.g., CD3+14-)

See Example 4 below.

<multiple_markers_pattern>        ::= '^[A-Za-z0-9]+(\+|\-)(\d+(\+|\-))+$'

Either Or Special Pattern (e.g., either CXCR5dim or PD1dim)

See Example 5 below.

<either_or_pattern>               ::= '^either +(.+) +or +(.+)$'

Multiple Markers N_P Special Pattern (e.g., CD14nCD16n_CD26p_CD36pCD86_pP)

See Example 6 below.

<multiple_markers_n_p_pattern>    ::= '^([A-Za-z]+\d+(n|n_|p|p_))+(.+)$'

Minus Markers Special Pattern (e.g., (IFN-g) minus (IFN-g Ki67 positive) )

See Example 12 below.

<minus_markers_pattern>           ::= '^\((\S+)\) +minus +\((\S+) +(\S+) +positive\)$'

Population Element Separators BNF

<and_lower_separator>  ::= ' +and +' 
<and_separator>        ::= '_AND_' 
<and_upper_separator>  ::= ' +AND +' 
<comma_separator>      ::= ',' 
<or_separator>         ::= '_OR_' 
<pipe_separator>       ::= '\|' 
<plus_separator>       ::= ' +\+ +' 
<semi_colon_separator> ::= ';' 
<slash_separator>      ::= '/' 

<population_separator> ::=   <slash_separator> | <comma_separator>
                           | <semi_colon_separator>| <pipe_separator>
                           | <plus_separator> | <or_separator>
                           | <and_separator> | <and_upper_separator>
                           | <and_lower_separator>

NOTES 4 BNF

See Special Patterns for examples.

<components> ::= (<marker><expression_value>)+

NOTES 5 BNF

The order below is the order for determining expression values as a separator in a component. See Example 7 below.

<expression_value_as_separators>
    ::=   <dim_expression_value> | <di_expression_value>
        | <high_expression_value> | <hi_expression_value>
        | <low_expression_value> | <lo_expression_value>
        | <plus_plus_expression_value> | <plus_expression_value>
        | <bright_expression_value> | <minus_expression_value>

NOTES

  1. See Appendix A Analyte Markers and Appendix B Non-Analyte Markers for the values known analyte and non-analyte markers, their corresponding preferred values, and corresponding analyte accessions.

  2. Most of the Ignore Patterns regular expressions also correspond to non-analyte markers (Appendix B Non-Analyte Markers). The ignore string processing allows for a mechanism for them to be determined early without having to parse the population element potentially incorrectly. Ignore patterns that are not non-analyte markers are completely ignored in parsing and left 'as-is'.

  3. In Population Name Gating Definition there can be at most two (2) distinct Population Elements. When there are two (2) distinct separators, one must be slash ('/'). The slash in this case is always considered the primary separator for first determining Special Patterns in the Population Elements generated by splitting by slash.

  4. Once the Population Name Gating Definition has been decomposed into population elements, then each population element is checked to see if a Special Patterns is found so that it can be interpreted into its components (See NOTES 4 BNF) from the special pattern.

  5. Once the Population Name Gating Definition has been decomposed into population elements and after Special Patterns has been checked, then each population element must be checked to see if certain expression values have been used as separators in the population element. See NOTES 5 BNF for the expression values as separators. If this is determined then the population element must be further decomposed into its components.

  6. Once the Population Name Gating Definition has been parsed into population elements and all the component markers have ben determined, then the fcs_analyzed_result_marker table is populated with values for population_marker_reported, population_marker_preferred, and preferred_analyte_accession. The population_marker_reported is the marker determined for the component. If the marker can be found in either Appendix A Analyte Markers or Appendix B Non-Analyte Markers, then the population_marker_preferred and the preferred_analyte_accession values are the ones determined from the Appendices. If each component has a marker that have population_marker_preferred, the Population Name Gating Definition has a preferred value that is the substitution of the preferred marker from the parse using the comma (',') separator. This preferred population gating definition is stored in fcs_analyzed_result.population_defnition_preferred.

Parsing Examples

The following parsing examples are provided for illustrative purposes.

Example 1

Gating Definition Reported:

Intact cells/intact singlets/viable singlets/CD14-CD33-/CD3+/CD4+CD8-/Non-naive CD4+/CXCR5+/CXCR3-CCR6+

fcs_analyzed_result_marker:

POPULATION_MARKER_REPORTED POPULATION_MARKER_PREFERRED PREFERRED_ANALYTE_ACCESSION
Intact cells intact
intact singlets singlet
viable singlets singlet
CD14- CD14- ANA804
CD33- SIGLEC-3- ANA864
CD3+ CD3+ ANA809
CD4+ CD4+ ANA41
CD8- CD8- ANA810
Non-naive CD4+ CD4+ ANA41
CXCR5+ CXCR5+ ANA78
CXCR3- CXCR3- ANA76
CCR6+ CCR6+ ANA36

fcs_analyzed_result.population_defnition_preferred:

intact, singlet, singlet, CD14-, SIGLEC-3-, CD3+, CD4+, CD8-, CD4+, CXCR5+, CXCR3-, CCR6+

Example 2

Gating Definition Reported:

B220- live,doublet excluded,CD4+CXCR5highBCL6+

fcs_analyzed_result_marker:

POPULATION_MARKER_REPORTED POPULATION_MARKER_PREFERRED PREFERRED_ANALYTE_ACCESSION
B220- live
doublet excluded
CD4+ CD4+ ANA41
CXCR5high CXCR5high ANA78
BCL6+

fcs_analyzed_result.population_defnition_preferred:

NONE

Example 3

Gating Definition Reported:

B220- live,doublet excluded,CD4+ CD44low,CCR7+

fcs_analyzed_result_marker:

POPULATION_MARKER_REPORTED POPULATION_MARKER_PREFERRED PREFERRED_ANALYTE_ACCESSION
B220- live
doublet excluded
CD4+ CD4+ ANA41
CD44low
CCR7+ CCR7+ ANA37

fcs_analyzed_result.population_defnition_preferred:

NONE

Example 4

Gating Definition Reported:

FSC-A;; SSC-A subset/FSC-A;; FSC-H subset/live/CD3+14-/CD4+8-;Count

fcs_analyzed_result_marker:

POPULATION_MARKER_REPORTED POPULATION_MARKER_PREFERRED PREFERRED_ANALYTE_ACCESSION
FSC-A
SSC-A subset
FSC-A
FSC-H subset
live viable
CD3+ CD3+ ANA809
CD14- CD14- ANA804
CD4+ CD4+ ANA41
CD8- CD8- ANA810
Count

fcs_analyzed_result.population_defnition_preferred:

NONE

Example 5

Gating Definition Reported:

B220- live,doublet excluded,CD4+ CD44high,either CXCR5dim or PD1dim,CCR7+

fcs_analyzed_result_marker:

POPULATION_MARKER_REPORTED POPULATION_MARKER_PREFERRED PREFERRED_ANALYTE_ACCESSION
B220- live
doublet excluded
CD4+ CD4+ ANA41
CD44high
CXCR5dim CXCR5dim ANA78
PD1dim PD1dim ANA818
CCR7+ CCR7+ ANA37

fcs_analyzed_result.population_defnition_preferred:

NONE

Example 6

Gating Definition Reported:

CD14nCD16n_CD86_pP

fcs_analyzed_result_marker:

POPULATION_MARKER_REPORTED POPULATION_MARKER_PREFERRED PREFERRED_ANALYTE_ACCESSION
CD14- CD14- ANA804
CD16- CD16- ANA811
CD86_pP B7-2 ANA868

fcs_analyzed_result.population_defnition_preferred:

CD14-, CD16-, B7-2

Example 7

Gating Definition Reported:

Intact cells/intact singlets/viable singlets/CD14-CD33-/CD3+/CD4-CD8+/Non-naive CD8+/CXCR5-/CXCR3-CCR6+

fcs_analyzed_result_marker:

POPULATION_MARKER_REPORTED POPULATION_MARKER_PREFERRED PREFERRED_ANALYTE_ACCESSION
Intact cells intact
intact singlets singlet
viable singlets singlet
CD14- CD14- ANA804
CD33- SIGLEC-3- ANA864
CD3+ CD3+ ANA809
CD4- CD4- ANA41
CD8+ CD8+ ANA810
Non-naive CD8+ CD8+ ANA810
CXCR5- CXCR5- ANA78
CXCR3- CXCR3- ANA76
CCR6+ CCR6+ ANA36

fcs_analyzed_result.population_defnition_preferred:

intact, singlet, singlet, CD14-, SIGLEC-3-, CD3+, CD4-, CD8+, CD8+, CXCR5-, CXCR3-, CCR6+

Example 8

Gating Definition Reported:

WBC/2-WBC/2-grans/Neu-CD45/Neutr/Q3: CD16+,, CD11b,Freq. of,Neutr

fcs_analyzed_result_marker:

POPULATION_MARKER_REPORTED POPULATION_MARKER_PREFERRED PREFERRED_ANALYTE_ACCESSION
WBC
2-WBC
2-grans
Neu-CD45
Neutr
Q3: CD16+ CD16+ ANA811
CD11b CD11b ANA878
Freq. of
Neutr

fcs_analyzed_result.population_defnition_preferred:

NONE

Example 9

Gating Definition Reported:

Alexa350 (medium) + Alexa750 (medium)

fcs_analyzed_result_marker:

POPULATION_MARKER_REPORTED POPULATION_MARKER_PREFERRED PREFERRED_ANALYTE_ACCESSION
Alexa350(medium)
Alexa750(medium)

fcs_analyzed_result.population_defnition_preferred:

NONE

Example 10

Gating Definition Reported:

MNC AND R16:- + - +

fcs_analyzed_result_marker:

POPULATION_MARKER_REPORTED POPULATION_MARKER_PREFERRED PREFERRED_ANALYTE_ACCESSION
MNC
R16:- + - +

fcs_analyzed_result.population_defnition_preferred:

NONE

Example 11

Gating Definition Reported:

CD11C+/CD80-/CD3,56,19,14+/HLADR-/CD123+

fcs_analyzed_result_marker:

POPULATION_MARKER_REPORTED POPULATION_MARKER_PREFERRED PREFERRED_ANALYTE_ACCESSION
CD11C+
CD80- B7- ANA866
CD3+ CD3+ ANA809
CD56+ CD56+ ANA815
CD19+ CD19+ ANA805
CD14+ CD14+ ANA804
HLADR- HLADR- ANA812
CD123+ CD123+ ANA173

fcs_analyzed_result.population_defnition_preferred:

NONE

Example 12

Gating Definition Reported:

(IFN-g) minus (IFN-g Ki67 positive)

fcs_analyzed_result_marker:

POPULATION_MARKER_REPORTED POPULATION_MARKER_PREFERRED PREFERRED_ANALYTE_ACCESSION
IFN-g IFNG ANA110
IFN-g IFNG ANA110
Ki67positive Ki67positive ANA889

fcs_analyzed_result.population_defnition_preferred:

IFNG, IFNG, Ki67positive

Appendix A Analyte Markers

The following table defines all the reported analyte markers that have have corresponding preferred analyte marker and analyte accession values. This table is derived from lk_analyte (gene_symbol and immunology_gene_symbol) and lk_analyte_pref_mapping (analyte_reported) tables.

Analyte Reported Analyte Preferred Analyte Accession
ACKR3 ACKR3 ANA1
AFP AFP ANA704
Ackr3 Ackr3 ANA475
Anti-HLA-DR HLADR ANA812
B3GAT1 CD57 ANA823
B7 B7 ANA866
B7-1 B7 ANA866
B7-2 B7-2 ANA868
B7.1 B7 ANA866
B7.2 B7-2 ANA868
B70 B7-2 ANA868
BAFF BAFF ANA241
BCL2 BCL2 ANA904
BDCA-1 BDCA1 ANA895
BDCA-2 BDCA2, CD303 ANA870
BDCA-3 BDCA3 ANA894
BDCA1 BDCA1 ANA895
BDCA2 BDCA2, CD303 ANA870
BDCA2, CD303 BDCA2, CD303 ANA870
BDCA3 BDCA3 ANA894
BDNF BDNF ANA701
BOB BOB ANA896
Bcl2 BCL2 ANA904
CCL1 CCL1 ANA2
CCL11 Eotaxin ANA3
CCL13 MCP4 ANA4
CCL14 CCL14 ANA5
CCL15 CCL15 ANA6
CCL16 CCL16 ANA7
CCL17 TARC ANA8
CCL18 CCL18 ANA9
CCL19 CCL19 ANA10
CCL2 MCP1 ANA11
CCL20 CCL20 ANA12
CCL21 CCL21 ANA13
CCL22 CCL22 ANA14
CCL23 CCL23 ANA15
CCL24 CCL24 ANA16
CCL25 CCL25 ANA17
CCL26 CCL26 ANA18
CCL27 CTACK ANA19
CCL3 MIP1A ANA20
CCL3L1 CCL3L1 ANA21
CCL3L3 CCL3L3 ANA22
CCL3P1 CCL3P1 ANA23
CCL4 MIP1B ANA24
CCL4L1 CCL4L1 ANA25
CCL4L2 CCL4L2 ANA26
CCL5 RANTES ANA27
CCL7 MCP3 ANA28
CCL8 CCL8 ANA29
CCR-9 CCR9 ANA824
CCR1 CCR1 ANA30
CCR10 CCR10 ANA31
CCR2 CCR2 ANA32
CCR3 CCR3 ANA33
CCR4 CCR4 ANA34
CCR5 CCR5 ANA35
CCR6 CCR6 ANA36
CCR7 CCR7 ANA37
CCR7(Gd160)Dd CCR7 ANA37
CCR8 CCR8 ANA38
CCR9 CCR9 ANA824
CCRL1 CCRL1 ANA59
CD103 CD103 ANA877
CD107A CD107a ANA887
CD107a CD107a ANA887
CD11B CD11b ANA878
CD11C V450-A CD11c ANA814
CD11b CD11b ANA878
CD11c CD11c ANA814
CD123 CD123 ANA173
CD127 CD127 ANA182
CD138 CD138 ANA891
CD14 APC C7-A CD14 ANA804
CD14 CD14 ANA804
CD14(Sm154)Dd CD14 ANA804
CD14/CD3 CD14 ANA804
CD15 CD15 ANA875
CD152 CD152 ANA871
CD154 CD154 ANA43
CD158A CD158A ANA879
CD158B1 CD158B1 ANA880
CD158B2 CD158B2 ANA881
CD158E1 CD158E1 ANA882
CD158a CD158A ANA879
CD158b1 CD158B1 ANA880
CD158b2 CD158B2 ANA881
CD158e1 CD158E1 ANA882
CD159A NKG2A ANA861
CD159a NKG2A ANA861
CD16 PE Cy7-A CD16 ANA811
CD16 CD16 ANA811
CD16(Sm149)Dd CD16 ANA811
CD161 CD161 ANA883
CD162 CLA, CD162 ANA903
CD19 CD19 ANA805
CD19(Nd142)Dd CD19 ANA805
CD194 PE Cy7-A CCR4 ANA34
CD194 CCR4 ANA34
CD1C BDCA1 ANA895
CD1c BDCA1 ANA895
CD2 CD2 ANA860
CD20 PerCP Cy 5-5-A CD20 ANA806
CD20 CD20 ANA806
CD20(Dy164)Dd CD20 ANA806
CD209 DC-SIGN1 ANA869
CD213 CD213A1 ANA128
CD213A1 CD213A1 ANA128
CD213A2 CD213A2 ANA129
CD22 SIGLEC-2 ANA862
CD24 CD24 ANA807
CD24(Er168)Dd CD24 ANA807
CD25 407A-A IL2RA ANA163
CD25 IL2RA ANA163
CD25(Yb176)Dd IL2RA ANA163
CD27 CD27 ANA40
CD27(Sm152)Dd CD27 ANA40
CD278 CD278 ANA898
CD28 CD28 ANA863
CD28LG B7 ANA866
CD28LG1 B7 ANA866
CD28LG2 B7-2 ANA868
CD295 CD295 ANA899
CD3 407E-A CD3 ANA809
CD3 APC Cy7-A CD3 ANA809
CD3 CD3 ANA809
CD3(Nd150)Dd CD3 ANA809
CD303 BDCA2, CD303 ANA870
CD314 CD314 ANA886
CD33 SIGLEC-3 ANA864
CD336 NKP44 ANA885
CD38 532D-A CD38 ANA808
CD38 PE-A CD38 ANA808
CD38 CD38 ANA808
CD38(Eu151)Dd CD38 ANA808
CD3E CD3 ANA809
CD4 407B-A CD4 ANA41
CD4 Alexa700-A CD4 ANA41
CD4 PerCP Cy 5-5-A CD4 ANA41
CD4 CD4 ANA41
CD4(Nd143)Dd CD4 ANA41
CD40 CD40 ANA42
CD40L CD154 ANA43
CD40LG CD154 ANA43
CD43 CD43 ANA893
CD45RA CD45RA ANA816
CD45RA(Dy162)Dd CD45RA ANA816
CD45RO FITC-A CD45RO ANA822
CD45RO CD45RO ANA822
CD45RO_old CD45RO ANA822
CD49 CD49 ANA876
CD56 PE-A CD56 ANA815
CD56 CD56 ANA815
CD56(Yb174)Dd CD56 ANA815
CD57 CD57 ANA823
CD62L CD62L ANA712
CD63 CD63 ANA902
CD64 CD64 ANA873
CD69 CD69 ANA865
CD70 CD70 ANA44
CD8 407F-A CD8 ANA810
CD8 CD8 ANA810
CD8(Nd144)Dd CD8 ANA810
CD80 B7 ANA866
CD85J CD85J ANA888
CD85j CD85J ANA888
CD86 B7-2 ANA868
CD8A CD8 ANA810
CD8_new CD8 ANA810
CD94 CD94 ANA884
CD95 CD95 ANA85
CENPB CENPB ANA821
CKLF CKLF ANA45
CLA CLA, CD162 ANA903
CLA, CD162 CLA, CD162 ANA903
CLCF1 CLCF1 ANA46
CLEC4C BDCA2, CD303 ANA870
CMTM1 CMTM1 ANA47
CMTM6 CMTM6 ANA48
CMTM7 CMTM7 ANA49
CNTFR CNTFR ANA50
CSF1 MCSF ANA51
CSF1R CSF1R ANA52
CSF2 GMCSF ANA53
CSF2RA CSF2RA ANA54
CSF2RB CSF2RB ANA55
CSF3 CSF3 ANA56
CSF3R CSF3R ANA57
CTACK CTACK ANA19
CTLA4 CD152 ANA871
CX3CL1 FRACTALKINE ANA58
CX3CR1 CCRL1 ANA59
CXCL1 GRO ANA60
CXCL10 IP-10 ANA61
CXCL11 CXCL11 ANA62
CXCL12 CXCL12 ANA63
CXCL13 CXCL13 ANA64
CXCL14 CXCL14 ANA65
CXCL16 CXCL16 ANA66
CXCL17 CXCL17 ANA67
CXCL2 MIP2 ANA68
CXCL3 CXCL3 ANA69
CXCL5 CXCL5 ANA70
CXCL6 CXCL6 ANA71
CXCL8 IL8 ANA72
CXCL9 CXCL9 ANA73
CXCR1 CXCR1 ANA74
CXCR2 CXCR2 ANA75
CXCR3 CXCR3 ANA76
CXCR4 CXCR4 ANA77
CXCR5 CXCR5 ANA78
CXCR6 CXCR6 ANA79
Ccl1 Ccl1 ANA476
Ccl11 Eotaxin ANA477
Ccl17 Ccl17 ANA478
Ccl19 Ccl19 ANA479
Ccl2 Ccl2 ANA480
Ccl20 Ccl20 ANA481
Ccl21a Ccl21a ANA482
Ccl22 Ccl22 ANA483
Ccl24 Ccl24 ANA484
Ccl25 Ccl25 ANA485
Ccl26 Ccl26 ANA486
Ccl27a Ccl27a ANA487
Ccl3 Ccl3 ANA488
Ccl4 Mip1b ANA489
Ccl5 Ccl5 ANA490
Ccl7 Ccl7 ANA491
Ccl8 Ccl8 ANA492
Ccr1 Ccr1 ANA493
Ccr10 Ccr10 ANA494
Ccr2 Ccr2 ANA495
Ccr3 Ccr3 ANA496
Ccr4 Ccr4 ANA497
Ccr5 Ccr5 ANA498
Ccr6 Ccr6 ANA499
Ccr7 Ccr7 ANA500
Ccr8 Ccr8 ANA501
Ccr9 Ccr9 ANA502
Cd27 Cd27 ANA503
Cd4 Cd4 ANA504
Cd40 Cd40 ANA505
Cd40lg Cd40lg ANA506
Cd70 Cd70 ANA507
Cklf Cklf ANA508
Clcf1 Clcf1 ANA509
Cmtm1 Cmtm1 ANA510
Cmtm6 Cmtm6 ANA511
Cmtm7 Cmtm7 ANA512
Cntfr Cntfr ANA513
Csf1 Csf1 ANA514
Csf1r Csf1r ANA515
Csf2 Csf2 ANA516
Csf2ra Csf2ra ANA517
Csf2rb Csf2rb ANA518
Csf3 Csf3 ANA519
Csf3r Csf3r ANA520
Cx3cl1 Fractalkine ANA521
Cx3cr1 Cx3cr1 ANA522
Cxcl1 Cxcl1 ANA523
Cxcl10 IP-10 ANA524
Cxcl11 Cxcl11 ANA525
Cxcl12 Cxcl12 ANA526
Cxcl13 Cxcl13 ANA527
Cxcl14 Cxcl14 ANA528
Cxcl16 Cxcl16 ANA529
Cxcl17 Cxcl17 ANA530
Cxcl2 Cxcl2 ANA531
Cxcl3 Cxcl3 ANA532
Cxcl5 Cxcl5 ANA533
Cxcl9 Cxcl9 ANA534
Cxcr1 Cxcr1 ANA535
Cxcr2 Cxcr2 ANA536
Cxcr3 Cxcr3 ANA537
Cxcr4 Cxcr4 ANA538
Cxcr5 Cxcr5 ANA539
Cxcr6 Cxcr6 ANA540
DC-SIGN1 DC-SIGN1 ANA869
E-Selectin CD62L ANA712
EBI3 EBI3 ANA80
EGF EGF ANA81
EGFR EGFR ANA82
ENA78 CXCL5 ANA70
EOTAXIN Eotaxin ANA3
EPO EPO ANA83
EPOR EPOR ANA84
Ebi3 Ebi3 ANA541
Egf Egf ANA542
Egfr Egfr ANA543
Eotaxin Eotaxin ANA3
Eotaxin Eotaxin ANA477
Epo Epo ANA544
Epor Epor ANA545
FAS CD95 ANA85
FASL FASLG ANA86
FASLG FASLG ANA86
FCG3A CD16 ANA811
FCGR1A CD64 ANA873
FGF basic FGFB ANA88
FGF-2 FGFB ANA88
FGF1 FGF1 ANA87
FGF2 FGFB ANA88
FGFB FGFB ANA88
FGFBasic FGFB ANA88
FGFb FGFB ANA88
FIGF FIGF ANA710
FLT 3 LIGAND FLT3LG ANA90
FLT3 FLT3 ANA89
FLT3LG FLT3LG ANA90
FOXP3 FOXP3 ANA874
FRACTALKINE FRACTALKINE ANA58
FUT4 CD15 ANA875
Fas Fas ANA546
Fasl Fasl ANA547
Fgf1 Fgf1 ANA548
Fgf2 Fgfb ANA549
Fgfb Fgfb ANA549
Flt3 Flt3 ANA550
Flt3l Flt3l ANA551
FoxP3 FOXP3 ANA874
Fractalkine Fractalkine ANA521
G-CSF CSF3 ANA56
GCSF CSF3 ANA56
GDF15 GDF15 ANA91
GM-CSF GMCSF ANA53
GMCSF GMCSF ANA53
GM_CSF GMCSF ANA53
GPR15 BOB ANA896
GRO ALPHA GRO ANA60
GRO GRO ANA60
GROA GRO ANA60
GZMB GranB ANA897
Gdf15 Gdf15 ANA552
GranB GranB ANA897
GranzymeB GranB ANA897
GzB GranB ANA897
HGF HGF ANA92
HLA DR Alexa700-A HLADR ANA812
HLA DR HLADR ANA812
HLA-DR 407E-A HLADR ANA812
HLA-DR HLADR ANA812
HLA-DRA HLADR ANA812
HLADR HLADR ANA812
HLADR(Lu175)Dd HLADR ANA812
Hgf Hgf ANA553
Hu Eotaxin (43) Eotaxin ANA3
Hu FGF basic (44) FGFB ANA88
Hu G-CSF (57) CSF3 ANA56
Hu GM-CSF (34) GMCSF ANA53
Hu IFN-g (21) IFNG ANA110
Hu IL-10 (56) IP-10 ANA61
Hu IL-12(p70) (75) IL12p70 ANA800
Hu IL-13 (51) IL13 ANA127
Hu IL-15 (73) IL15 ANA130
Hu IL-17 (76) IL17 ANA801
Hu IL-1b (39) IL1B ANA143
Hu IL-1ra (25) IL1R1 ANA145
Hu IL-2 (38) IL2 ANA148
Hu IL-4 (52) IL4 ANA174
Hu IL-5 (33) IL5 ANA176
Hu IL-6 (19) IL6 ANA178
Hu IL-7 (74) IL7 ANA181
Hu IL-8 (54) IL8 ANA72
Hu IL-9 (77) IL9 ANA183
Hu IP-10 (48) IP-10 ANA61
Hu MCP-1(MCAF) (53) MCP1 ANA11
Hu MIP-1a (55) MIP1A ANA20
Hu MIP-1b (18) MIP1B ANA24
Hu PDGF-bb (47) PDGFB ANA202
Hu RANTES (37) RANTES ANA27
Hu TNF-a (36) TNFA ANA220
Hu VEGF (45) VEGFA ANA709
Human CCL17 (TARC) TARC ANA8
Human CCL27 (CTACK) CTACK ANA19
Human CXCL10 (IP-10) IP-10 ANA61
ICAM-1 ICAM1 ANA705
ICAM1 ICAM1 ANA705
ICOS CD278 ANA898
IFN G IFNG ANA110
IFN alpha IFNA ANA717
IFN gamma IFNG ANA110
IFN-G IFNG ANA110
IFN-a IFNA ANA717
IFN-alpha IFNA ANA717
IFN-alpha2 IFNA2 ANA99
IFN-b IFNB1 ANA108
IFN-g APC Cy7-A IFNG ANA110
IFN-g IFNG ANA110
IFN-gamma IFNG ANA110
IFN-r TNFRSF18 ANA230
IFN1@ IFNA ANA717
IFNA IFNA ANA717
IFNA1 IFNA1 ANA93
IFNA10 IFNA10 ANA94
IFNA13 IFNA13 ANA95
IFNA14 IFNA14 ANA96
IFNA16 IFNA16 ANA97
IFNA17 IFNA17 ANA98
IFNA2 IFNA2 ANA99
IFNA21 IFNA21 ANA100
IFNA4 IFNA4 ANA101
IFNA5 IFNA5 ANA102
IFNA6 IFNA6 ANA103
IFNA7 IFNA7 ANA104
IFNA8 IFNA8 ANA105
IFNAR1 IFNAR1 ANA106
IFNAR2 IFNAR2 ANA107
IFNB IFNB1 ANA108
IFNB1 IFNB1 ANA108
IFNE IFNE ANA109
IFNG IFNG ANA110
IFNGR1 IFNGR1 ANA111
IFNGR2 IFNGR2 ANA112
IFNK IFNK ANA113
IFNL1 IFNL1 ANA114
IFNL2 IL28A ANA115
IFNL3 IFNL3 ANA116
IFNLR1 IFNLR1 ANA117
IFNa IFNA ANA717
IFNa2 IFNA2 ANA99
IFNa2b IFNA2 ANA99
IFNb IFNB1 ANA108
IFNg IFNG ANA110
IFNgamma IFNG ANA110
IGF-1 IGF1 ANA713
IGF1 IGF1 ANA713
IGFBP-3 IGFBP3 ANA706
IGFBP3 IGFBP3 ANA706
IGHA1 IgA1 ANA820
IGHA2 IgA2 ANA819
IGHD IgD ANA813
IGHM IgM ANA817
IL-10 IL10 ANA118
IL-12 p70 IL12p70 ANA800
IL-12(p40) IL12p40 ANA124
IL-12(p70) IL12p70 ANA800
IL-12-P70 IL12p70 ANA800
IL-12P40 IL12p40 ANA124
IL-12p40 IL12p40 ANA124
IL-12p70 IL12p70 ANA800
IL-13 IL13 ANA127
IL-15 IL15 ANA130
IL-17 IL17 ANA801
IL-17A IL17A ANA133
IL-17F IL17F ANA137
IL-18 IL18 ANA139
IL-1B IL1B ANA143
IL-1RA IL1R1 ANA145
IL-1Ra IL1R1 ANA145
IL-1a IL1A ANA142
IL-1alpha IL1A ANA142
IL-1b IL1B ANA143
IL-1beta IL1B ANA143
IL-1ra IL1R1 ANA145
IL-2 FITC-A IL2 ANA148
IL-2 IL2 ANA148
IL-21 IL21 ANA152
IL-23 IL23A ANA157
IL-28A IL28A ANA115
IL-3 IL3 ANA166
IL-4 IL4 ANA174
IL-5 IL5 ANA176
IL-6 IL6 ANA178
IL-7 IL7 ANA181
IL-8 IL8 ANA72
IL-9 IL9 ANA183
IL1 alpha IL1A ANA142
IL1 beta IL1B ANA143
IL1-A IL1A ANA142
IL1-B IL1B ANA143
IL10 IL10 ANA118
IL10RA IL10RA ANA119
IL10RB IL10RB ANA120
IL11 IL11 ANA121
IL11RA IL11RA ANA122
IL12 P40 IL12p40 ANA124
IL12 P70 IL12p70 ANA800
IL12 IL12p70 ANA800
IL12A IL12p35 ANA123
IL12B IL12p40 ANA124
IL12P40 IL12p40 ANA124
IL12P70 IL12p70 ANA800
IL12RB1 IL12RB1 ANA125
IL12RB2 IL12RB2 ANA126
IL12p35 IL12p35 ANA123
IL12p40 IL12p40 ANA124
IL12p40 IL12p40 ANA582
IL12p70 IL12p70 ANA800
IL13 IL13 ANA127
IL13RA1 CD213A1 ANA128
IL13RA2 CD213A2 ANA129
IL15 IL15 ANA130
IL15RA IL15RA ANA131
IL16 IL16 ANA132
IL17 IL17 ANA801
IL17A IL17A ANA133
IL17B IL17B ANA134
IL17C IL17C ANA135
IL17D IL17D ANA136
IL17F IL17F ANA137
IL17RA IL17RA ANA138
IL18 IL18 ANA139
IL18R1 IL18R1 ANA140
IL19 IL19 ANA141
IL1A IL1A ANA142
IL1B IL1B ANA143
IL1F10 IL1F10 ANA144
IL1R1 IL1R1 ANA145
IL1R2 IL1R2 ANA146
IL1RA IL1R1 ANA145
IL1RN IL1RN ANA147
IL1a IL1A ANA142
IL1b IL1B ANA143
IL2 IL2 ANA148
IL20 IL20 ANA149
IL20RA IL20RA ANA150
IL20RB IL20RB ANA151
IL21 IL21 ANA152
IL21R IL21R ANA153
IL22 IL22 ANA154
IL22RA1 IL22RA1 ANA155
IL22RA2 IL22RA2 ANA156
IL23 IL23 ANA802
IL23A IL23A ANA157
IL23R IL23R ANA158
IL24 IL24 ANA159
IL25 IL25 ANA160
IL26 IL26 ANA161
IL27 IL27 ANA162
IL28A IL28A ANA115
IL2RA IL2RA ANA163
IL2RB IL2RB ANA164
IL2RG IL2RG ANA165
IL2r IL2RA ANA163
IL3 IL3 ANA166
IL31 IL31 ANA167
IL32 IL32 ANA168
IL33 IL33 ANA169
IL34 IL34 ANA170
IL36G IL36G ANA171
IL36RN IL36RN ANA172
IL3RA CD123 ANA173
IL4 IL4 ANA174
IL4R IL4R ANA175
IL5 IL5 ANA176
IL5RA IL5RA ANA177
IL6 IL6 ANA178
IL6R IL6R ANA179
IL6ST IL6ST ANA180
IL7 IL7 ANA181
IL7R CD127 ANA182
IL8 IL8 ANA72
IL9 IL9 ANA183
IL9R IL9R ANA184
IL_10 IL10 ANA118
IL_12p70 IL12p70 ANA800
IL_13 IL13 ANA127
IL_1B IL1B ANA143
IL_1a IL1A ANA142
IL_2 IL2 ANA148
IL_4 IL4 ANA174
IL_5 IL5 ANA176
IL_6 IL6 ANA178
IL_7 IL7 ANA181
IL_8 IL8 ANA72
INF-gamma IFNG ANA110
IP-10 IP-10 ANA524
IP-10 IP-10 ANA61
IP10 IP-10 ANA61
IP_10 IP-10 ANA61
ITAX CD11c ANA814
ITGA6 CD49 ANA876
ITGAE CD103 ANA877
ITGAM CD11b ANA878
Ifna1 Ifna1 ANA554
Ifna10 Ifna10 ANA555
Ifna13 Ifna13 ANA556
Ifna14 Ifna14 ANA557
Ifna16 Ifna16 ANA558
Ifna2 Ifna2 ANA559
Ifna4 Ifna4 ANA560
Ifna5 Ifna5 ANA561
Ifna6 Ifna6 ANA562
Ifna7 Ifna7 ANA563
Ifna8 Ifna8 ANA564
Ifnar1 Ifnar1 ANA565
Ifnar2 Ifnar2 ANA566
Ifnb1 Ifnb1 ANA567
Ifne Ifne ANA568
Ifng Ifng ANA569
Ifngr1 Ifngr1 ANA570
Ifngr2 Ifngr2 ANA571
Ifnk Ifnk ANA572
Ifnl2 Ifnl2 ANA573
Ifnl3 Ifnl3 ANA574
Ifnlr1 Ifnlr1 ANA575
IgA IgA1 ANA820
IgA1 IgA1 ANA820
IgA2 IgA2 ANA819
IgA_inhouse IgA1 ANA820
IgD IgD ANA813
IgD(Nd146)Dd IgD ANA813
IgM IgM ANA817
Il10 Il10 ANA576
Il10ra Il10ra ANA577
Il10rb Il10rb ANA578
Il11 Il11 ANA579
Il11ra1 Il11ra1 ANA580
Il12a Il12p35 ANA581
Il12b IL12p40 ANA582
Il12p35 Il12p35 ANA581
Il12rb1 Il12rb1 ANA583
Il12rb2 Il12rb2 ANA584
Il13 Il13 ANA585
Il13ra1 Il13ra1 ANA586
Il13ra2 Il13ra2 ANA587
Il15 Il15 ANA588
Il15ra Il15ra ANA589
Il16 Il16 ANA590
Il17a Il17a ANA591
Il17b Il17b ANA592
Il17c Il17c ANA593
Il17d Il17d ANA594
Il17f Il17f ANA595
Il17ra Il17ra ANA596
Il18 Il18 ANA597
Il19 Il19 ANA598
Il1a Il1a ANA599
Il1b Il1b ANA600
Il1f10 Il1f10 ANA601
Il1f5 Il1f5 ANA602
Il1r1 Il1r1 ANA603
Il1r2 Il1r2 ANA604
Il1rn Il1rn ANA605
Il2 Il2 ANA606
Il20 Il20 ANA607
Il20ra Il20ra ANA608
Il20rb Il20rb ANA609
Il21 Il21 ANA610
Il21r Il21r ANA611
Il22 Il22 ANA612
Il22ra1 Il22ra1 ANA613
Il22ra2 Il22ra2 ANA614
Il23a Il23a ANA615
Il23r Il23r ANA616
Il24 Il24 ANA617
Il25 Il25 ANA618
Il27 Il27 ANA619
Il2ra Il2ra ANA620
Il2rb Il2rb ANA621
Il2rg Il2rg ANA622
Il3 Il3 ANA623
Il31 Il31 ANA624
Il33 Il33 ANA625
Il34 Il34 ANA626
Il3ra Il3ra ANA627
Il4 Il4 ANA628
Il4ra Il4ra ANA629
Il5 Il5 ANA630
Il5ra Il5ra ANA631
Il6 Il6 ANA632
Il6ra Il6ra ANA633
Il6st Il6st ANA634
Il7 Il7 ANA635
Il7r Il7r ANA636
Il9 Il9 ANA637
Il9r Il9r ANA638
KC GRO ANA60
KI67 Ki67 ANA889
KIR2DL1 CD158A ANA879
KIR2DL2 CD158B1 ANA880
KIR2DL3 CD158B2 ANA881
KIR3DL1 CD158E1 ANA882
KIT KIT ANA185
KITLG KITLG ANA186
KLRB1 CD161 ANA883
KLRC1 NKG2A ANA861
KLRD1 CD94 ANA884
KLRK1 CD314 ANA886
Ki-67 Ki67 ANA889
Ki67 Ki67 ANA889
Kit Kit ANA639
Kitl Kitl ANA640
LAMP1 CD107a ANA887
LBT LBT ANA187
LECT1 LECT1 ANA188
LECT2 LECT2 ANA189
LEP LEP ANA714
LEP-R CD295 ANA899
LEPR CD295 ANA899
LEPTIN LEP ANA714
LIF LIF ANA190
LIFR LIFR ANA191
LILRB1 CD85J ANA888
LTA TNFB ANA192
LTBR LTBR ANA193
Lect1 Lect1 ANA641
Lect2 Lect2 ANA642
Leptin LEP ANA714
Lif Lif ANA643
Lifr Lifr ANA644
Lta Tnfb ANA645
Ltb Ltb ANA646
Ltbr Ltbr ANA647
M-CSF MCSF ANA51
MCP-1 MCP1 ANA11
MCP-1(MCAF) MCP1 ANA11
MCP-3 MCP3 ANA28
MCP1 MCP1 ANA11
MCP3 MCP3 ANA28
MCP4 MCP4 ANA4
MCP_1 MCP1 ANA11
MCP_4 MCP4 ANA4
MCSF MCSF ANA51
MDC CCL22 ANA14
MET MET ANA194
MIF MIF ANA195
MIG CXCL9 ANA73
MIP-1B MIP1B ANA24
MIP-1a MIP1A ANA20
MIP-1alpha MIP1A ANA20
MIP-1b Alexa 647-A MIP1B ANA24
MIP-1b MIP1B ANA24
MIP-1beta MIP1B ANA24
MIP1A MIP1A ANA20
MIP1B MIP1B ANA24
MIP1a MIP1A ANA20
MIP1b MIP1B ANA24
MIP2 MIP2 ANA68
MIPB MIP1B ANA24
MIP_1a MIP1A ANA20
MKI67 Ki67 ANA889
MPL MPL ANA196
MPO MPO ANA707
MST1 MST1 ANA197
MST1R MST1R ANA198
Met Met ANA648
Mif Mif ANA649
Mip1b Mip1b ANA489
Mpl Mpl ANA650
Mst1 Mst1 ANA651
Mst1r Mst1r ANA652
NCAM1 CD56 ANA815
NCR2 NKP44 ANA885
NGF NGF ANA699
NKG2A NKG2A ANA861
NKP44 NKP44 ANA885
NKg2D CD314 ANA886
NKp44 NKP44 ANA885
OPG OPG ANA226
OSM OSM ANA199
OSMR OSMR ANA200
Osm Osm ANA653
Osmr Osmr ANA654
PAI-1 PAI1 ANA708
PAI1 PAI1 ANA708
PAPP-A PAPPA ANA700
PAPPA PAPPA ANA700
PD-1 PD1 ANA818
PD1 PD1 ANA818
PDCD1 PD1 ANA818
PDGF AB/BB PDGF ANA803
PDGF PDGF ANA803
PDGF-bb PDGFB ANA202
PDGFA PDGFA ANA201
PDGFAA PDGFA ANA201
PDGFB PDGFB ANA202
PDGFBB PDGFB ANA202
PDGFRA PDGFRA ANA203
PDGFRB PDGFRB ANA204
PF4 PF4 ANA205
PF4V1 PF4V1 ANA206
PIGF PIGF ANA715
PIGF1 PIGF ANA715
PPBP PPBP ANA207
PR3 PRTN3 ANA703
PRF1 Perforin ANA890
PRTN3 PRTN3 ANA703
PTPRC CD45RA ANA816
PTPRC CD45RO ANA822
Pdgfa Pdgfa ANA655
Pdgfb Pdgfb ANA656
Pdgfra Pdgfra ANA657
Pdgfrb Pdgfrb ANA658
Perforin Perforin ANA890
Pf4 Pf4 ANA659
Ppbp Ppbp ANA660
RANKL RANKL ANA238
RANTES RANTES ANA27
RESISTIN RETN ANA208
RETN RETN ANA208
Rantes RANTES ANA27
Resistin RETN ANA208
Retn Retn ANA661
SCF KITLG ANA186
SDC1 CD138 ANA891
SDF1A CXCL12 ANA63
SECISBP2L SLAN ANA906
SELE CD62L ANA712
SELPLG CLA, CD162 ANA903
SERPINE1 PAI1 ANA708
SIGLEC-2 SIGLEC-2 ANA862
SIGLEC-3 SIGLEC-3 ANA864
SIGLEC2 SIGLEC-2 ANA862
SIGLEC3 SIGLEC-3 ANA864
SLAN SLAN ANA906
SOL CD40L CD154 ANA43
SPN CD43 ANA893
SPP1 SPP1 ANA209
STAT1 STAT1 ANA892
STAT3 STAT3 ANA900
STAT5 STAT5 ANA901
STAT5A STAT5 ANA901
Slan SLAN ANA906
Spp1 Spp1 ANA662
TARC TARC ANA8
TDGF1P2 TDGF1P2 ANA210
TDGF1P3 TDGF1P3 ANA211
TGF-a TGFA ANA212
TGF-b TGFB1 ANA213
TGFA TGFA ANA212
TGFB TGFB1 ANA213
TGFB1 TGFB1 ANA213
TGFB2 TGFB2 ANA214
TGFB3 TGFB3 ANA215
TGFBR1 TGFBR1 ANA216
TGFBR2 TGFBR2 ANA217
TGFBR3 TGFBR3 ANA218
THBD BDCA3 ANA894
THPO THPO ANA219
TLR5 FITC TLR5 ANA872
TLR5 TLR5 ANA872
TLR6 PE TLR6 ANA867
TLR6 TLR6 ANA867
TLR7 TLR7 ANA39
TNF TNFA ANA220
TNF-A TNFA ANA220
TNF-B TNFB ANA192
TNF-a PE Cy7-A TNFA ANA220
TNF-a TNFA ANA220
TNF-alpha TNFA ANA220
TNFA TNFA ANA220
TNFB TNFB ANA192
TNFRSF10A TNFRSF10A ANA221
TNFRSF10B TNFRSF10B ANA222
TNFRSF10C TNFRSF10C ANA223
TNFRSF10D TNFRSF10D ANA224
TNFRSF11A TNFRSF11A ANA225
TNFRSF11B OPG ANA226
TNFRSF13B TNFRSF13B ANA227
TNFRSF14 TNFRSF14 ANA228
TNFRSF17 TNFRSF17 ANA229
TNFRSF18 TNFRSF18 ANA230
TNFRSF1A TNFRSF1A ANA231
TNFRSF1B TNFRSF1B ANA232
TNFRSF25 TNFRSF25 ANA233
TNFRSF4 TNFRSF4 ANA234
TNFRSF8 TNFRSF8 ANA235
TNFRSF9 TNFRSF9 ANA236
TNFSF10 TRAIL ANA237
TNFSF11 RANKL ANA238
TNFSF12 TNFSF12 ANA239
TNFSF13 TNFSF13 ANA240
TNFSF13B BAFF ANA241
TNFSF14 TNFSF14 ANA242
TNFSF15 TNFSF15 ANA243
TNFSF18 TNFSF18 ANA244
TNFSF4 TNFSF4 ANA245
TNFSF8 TNFSF8 ANA246
TNFSF9 TNFSF9 ANA247
TNFa TNFA ANA220
TNFb TNFB ANA192
TPO THPO ANA219
TRAIL TRAIL ANA237
TSLP TSLP ANA716
Tgfa Tgfa ANA663
Tgfb1 Tgfb1 ANA664
Tgfb2 Tgfb2 ANA665
Tgfb3 Tgfb3 ANA666
Tgfbr1 Tgfbr1 ANA667
Tgfbr2 Tgfbr2 ANA668
Tgfbr3 Tgfbr3 ANA669
Thpo Thpo ANA670
Tnf Tnfa ANA671
Tnfa Tnfa ANA671
Tnfb Tnfb ANA645
Tnfrsf10b Tnfrsf10b ANA672
Tnfrsf11a Tnfrsf11a ANA673
Tnfrsf11b Tnfrsf11b ANA674
Tnfrsf13b Tnfrsf13b ANA675
Tnfrsf14 Tnfrsf14 ANA676
Tnfrsf17 Tnfrsf17 ANA677
Tnfrsf18 Tnfrsf18 ANA678
Tnfrsf1a Tnfrsf1a ANA679
Tnfrsf1b Tnfrsf1b ANA680
Tnfrsf25 Tnfrsf25 ANA681
Tnfrsf4 Tnfrsf4 ANA682
Tnfrsf8 Tnfrsf8 ANA683
Tnfrsf9 Tnfrsf9 ANA684
Tnfsf10 Tnfsf10 ANA685
Tnfsf11 Tnfsf11 ANA686
Tnfsf12 Tnfsf12 ANA687
Tnfsf13 Tnfsf13 ANA688
Tnfsf13b Tnfsf13b ANA689
Tnfsf14 Tnfsf14 ANA690
Tnfsf15 Tnfsf15 ANA691
Tnfsf18 Tnfsf18 ANA692
Tnfsf4 Tnfsf4 ANA693
Tnfsf8 Tnfsf8 ANA694
Tnfsf9 Tnfsf9 ANA695
V-CAM-1 VCAM1 ANA702
VCAM1 VCAM1 ANA702
VEGF VEGFA ANA709
VEGFA VEGFA ANA709
VEGFD FIGF ANA710
XCL1 XCL1 ANA248
XCL2 XCL2 ANA249
XCR1 XCR1 ANA250
Xcl1 Xcl1 ANA696
Xcr1 Xcr1 ANA697
bcl2 BCL2 ANA904
gmcsf GMCSF ANA53
human IFN-gamma IFNG ANA110
ifna IFNA ANA717
ifna2 IFNA2 ANA99
ifnb IFNB1 ANA108
ifng IFNG ANA110
il10 IL10 ANA118
il12p40 IL12p40 ANA124
il12p70 IL12p70 ANA800
il13 IL13 ANA127
il18 IL18 ANA139
il18r1 il18r1 ANA698
il1b IL1B ANA143
il2 IL2 ANA148
il4 IL4 ANA174
il6 IL6 ANA178
il8 IL8 ANA72
ip10 IP-10 ANA61
mip1a MIP1B ANA24
mip1b MIP1B ANA24
pSTAT-1 STAT1 ANA892
pSTAT-3 STAT3 ANA900
pSTAT-5 STAT5 ANA901
pSTAT1 STAT1 ANA892
pSTAT3 STAT3 ANA900
pSTAT5 STAT5 ANA901
s IL2-RA IL2RA ANA163
sFAS ligand FASLG ANA86
sVEGF VEGFA ANA709
tnfa TNFA ANA220

Appendix B Non-Analyte Markers

The following table defines all the reported non-analyte markers that have have corresponding preferred non-analyte markers and analyte accession values. This table is derived from lk_cell_population_marker (name), and lk_cell_pop_pref_mapping (marker_reported) tables.

Analyte Reported Analyte Preferred Analyte Accession
Annexin negative viable
Annexin- viable
CFSE- proliferated
Intact cells intact
Intact singlets singlet
Intact_cells intact
Intact_cells_population intact
Live cells viable
LiveDead viable
Lv viable
Lymp lymphocyte
Lymph lymphocyte
Lymphocytes lymphocyte
Lymphs lymphocyte
MNC monocyte
Mono monocyte
Monocytes monocyte
Singlet singlet
Singlets singlet
TracerViolet- proliferated
Viable Gate viable
Viable viable
doublet_excluded singlet
gran granulocyte
granulocyte granulocyte
granulocytes granulocyte
intact singlets singlet
intact intact
intact_singlet singlet
live viable
live/dead stain-? viable
ly lymphocyte
lymo lymphocyte
lymono lymphocyte
lymp lymphocyte
lymph lymphocyte
lymphocyte lymphocyte
lymphocyte lymphocyte
mo monocyte
mono monocyte
monocyte monocyte
monos monocyte
proliferated proliferated
sWBC singlet
sing singlet
sing-F singlet
singlet singlet
singlets singlet
viable singlets singlet
viable viable