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Journal of Allergy and Clinical Immunology, The, ISSN 0091-6749, 2012, Volume 129, Issue 4, pp. 1031 - 1039.e1
Background Filaggrin (FLG) mutations result in reduced stratum corneum (SC) natural moisturizing factor (NMF) components and consequent increased SC pH.... 
Allergy and Immunology | skin barrier | transepidermal water loss | confocal Raman spectroscopy | Flgft/Flgft (FlgdelAPfal) mice | Atopic dermatitis | IL-1 | IL-18 | FLG gene mutations | eczema | filaggrin | natural moisturizing factor | pH | UNCONVENTIONAL PROTEIN SECRETION | INTERLEUKIN-1 RECEPTOR ANTAGONIST | TERM CULTURE | IMMUNOLOGY | PERMEABILITY BARRIER HOMEOSTASIS | HUMAN KERATINOCYTES | IN-VITRO | ALLERGY | Flg(ft)/Flg(ft)(Flg(delAPfal)) mice | EPIDERMIS | IL-1-BETA | Interleukin-1 - genetics | Interleukin-1 - metabolism | Dermatitis, Atopic - genetics | Cytokines - metabolism | Skin - metabolism | Humans | Mice, Inbred C57BL | Child, Preschool | Genotype | Infant | Male | Mice, Knockout | Animals | Adolescent | Alleles | Intermediate Filament Proteins - genetics | Female | Mice | Mutation | Child | Dermatitis, Atopic - metabolism | Intermediate Filament Proteins - metabolism | Hydrogen-Ion Concentration | Medical colleges | Cytokines | Proteases | Genes | Respiratory agents | Genetic aspects | Skin | Inflammation | Universities and colleges | Dermatitis | Proteins | Enzymes | Genotype & phenotype | Hypotheses | Families & family life | Values | Homeostasis | Animal models | Stratum corneum | Interleukin 1 receptor antagonist | Proteinase | Keratinocytes | mRNA | Filaggrin | Raman spectroscopy | pH effects | Tails | Interleukin 18 | Polymerase chain reaction | Water loss | Primers | Interleukin 1 | Interleukin 8 | Index Medicus | Abridged Index Medicus | FLG | SC, Stratum corneum | Flgft | Patient homozygous for null alleles (ie, 2 null alleles) | AD, Atopic dermatitis | FLG, Filaggrin gene | Homozygote wild-type (ie, 0 null alleles) | TEWL, Transepidermal water loss | Heterozygote null allele | Flgft (FlgdelAPfal) mice | IL-1RA, IL-1 receptor antagonist | wild-type (ie, 1 null allele) | NMF, Natural moisturizing factor | ADFLG, AD with FLG mutations | Atopic Dermatitis and Skin Disease | NESS, Nottingham Eczema Severity Score | ADNON-FLG, AD without FLG mutations
Journal Article
by Zhang, Q and Zhou, Y
HLA, ISSN 2059-2302, 06/2018, Volume 91, Issue 6, pp. 544 - 545
A single nucleotide deletion at position 187 of HLA‐DRB1*15:01:01:01 results in a null allele, HLA‐DRB1*15:148N . 
HLA‐DRB115:148N | sequence‐based typing | null allele | class II | HLA-DRB115:148N | sequence-based typing | IMMUNOLOGY | PATHOLOGY | CELL BIOLOGY
Journal Article
HLA, ISSN 2059-2302, 07/2017, Volume 90, Issue 1, pp. 32 - 35
Antibody identification by a bead array assay in a kidney patient revealed several HLA ‐specific antibodies including one directed against the HLA‐B7 antigen.... 
bead array test | HLA‐B7 | null alleles | sequencing based typing | next generation sequencing | CROSS-MATCH | HLA-B | IMMUNOLOGY | PATHOLOGY | HLA-B7 | CELL BIOLOGY
Journal Article
Molecular Ecology Resources, ISSN 1755-098X, 05/2015, Volume 15, Issue 3, pp. 477 - 488
Journal Article
HLA, ISSN 2059-2302, 11/2018, Volume 92, Issue 5, pp. 324 - 326
A novel HLA‐A allele, HLA‐A*30:130N , carrying a two‐nucleotide insertion in exon 4 is described. 
frameshift mutation | novel HLA‐A null allele | next‐generation sequencing | next-generation sequencing | novel HLA-A null allele | IMMUNOLOGY | PATHOLOGY | CELL BIOLOGY
Journal Article
HLA, ISSN 2059-2302, 09/2018, Volume 92, Issue 3, pp. 167 - 168
The new allele, A*11:251N , differs from A*11:01:01 by insertion of two nucleotides at position 204‐205. 
HLA‐A11:251N | HLA | null allele | HLA-A11:251N | IMMUNOLOGY | PATHOLOGY | CELL BIOLOGY
Journal Article
HLA, ISSN 2059-2302, 02/2018, Volume 91, Issue 2, pp. 146 - 147
We identified the novel HLA‐G*01:21N null allele in Finnish Caucasian individuals. 
human leukocyte antigen‐G | Caucasian | Finnish | null allele | human leukocyte antigen-G | MUCOSA | IMMUNOLOGY | PATHOLOGY | FAMILY | HPV | CELL BIOLOGY
Journal Article
HLA, ISSN 2059-2302, 04/2018, Volume 91, Issue 4, pp. 303 - 305
HLA‐B*40:338N differs from HLA‐B*40:01:01 by a single nucleotide substitution at position 843C>A. 
polymerase chain reaction sequence‐based typing | HLA‐B40:338N | null allele | polymerase chain reaction sequence-based typing | HLA-B40:338N | DONOR | IMMUNOLOGY | PATHOLOGY | CELL BIOLOGY
Journal Article
HLA, ISSN 2059-2302, 04/2017, Volume 89, Issue 4, pp. 252 - 253
HLA ‐C*01: 109N differs from HLA ‐C*01:02:01 by a single nucleotide substitution at position 683 G > A. 
polymerase chain reaction sequence‐based typing | 109N | null allele | HLA | C01 | polymerase chain reaction sequence-based typing | HLA-C01:109N | polymerase chain reaction sequence based typing | IMMUNOLOGY | PATHOLOGY | CELL BIOLOGY
Journal Article
HLA, ISSN 2059-2302, 01/2017, Volume 89, Issue 1, pp. 65 - 66
One nucleotide deletion at residue 157 of HLA‐DRB1*12:02:01 results in a new allele, HLA‐DRB1*12:60N. 
hematopoietic stem cell | HLA‐DRB112:60N | sequence‐based typing | human leukocyte antigen, null allele | sequence-based typing | HLA-DRB112:60N
Journal Article
HLA, ISSN 2059-2302, 11/2016, Volume 88, Issue 5, pp. 260 - 261
The HLA ‐A*26:01:01: 03N allele shows a single nucleotide difference compared with HLA ‐A*26:01:01:01 in intron 4(1846 G>A). 
human leukocyte antigen‐A26 | new allele | null allele | human leukocyte antigen-A26 | IMMUNOLOGY | PATHOLOGY | CELL BIOLOGY
Journal Article
by Wang, W and Zhang, W and He, J and Xu, J and Zhu, F.‐M
HLA, ISSN 2059-2302, 12/2016, Volume 88, Issue 6, pp. 312 - 313
HLA‐B*39:97N differs from HLA‐B*39:01:01 by a two nucleotide insertion at position 604–605. 
HLA‐B39:97N | human leukocyte antigen | null allele | HLA-B39:97N | IMMUNOLOGY | PATHOLOGY | CELL BIOLOGY
Journal Article