RHD*06.03.01 - RHD*DVI.3<br /><small>(ISBT table: RHD partial D v5.0)</small><br />

Molecular Data Phenotype Haplotype Alloimmunization Reports 2D diagram Structure Links References

RHD06.03.01 - RHDDVI.3
(ISBT table: RHD partial D v5.0)

This entry is an hybrid RHD allele.

DVI type 3, DVI type III, DVI-3, RHD*06.03, RHD*D-CE(3-6)-D, RHD*D-CE(3-6)-D (DVI type 3), RHD-RHCE(3-6)-RHD,

Molecular data

Nucleotides: 361T>A; 380T>C; 383A>G; 455A>C; 505A>C; 509T>G; 514A>T; 544T>A; 577G>A; 594A>T; 602C>G; 667T>G; 697G>C; 712G>A; 733G>C; 744C>T; 787G>A; 800A>T; 916G>A; 932A>G;

Amino acids: L121M; V127A; D128G; N152T; M169L; M170R; I172F; S182T; E193K; K198N; T201R; F223V; E233Q; V238M; V245L; S248S; G263R; K267M; V306I; Y311C;

Hybrid allele encompassing at least one RHCE exon: RHD-RHCE(3-6)-RHD

Comments on the molecular basis:

zygosity determination by MPLA and RHbox detection
RHef00105 probably not excluded

Extracellular position of one or more amino acid substitutions:

hybrid RHD-RHCE, several residues are predicted to be extracellular
Table S3

Splicing:

Unconventional prediction methods:

Phenotype

Main D phenotype: variable/discrepant (last update: June 12, 2020)

Reports by D phenotype

Undetailed ambiguous D phenotype
Discrepant D phenotype (negative or positive depending on anti-D reagents and techniques)
- discordant between tube and IAT
- negative with IgM anti-D, positive with IgG anti-D
Weak D phenotype
- "weak/partial" phenotype
D negative
- article states that adsorption-elution was performed but results of this method are not clear
- adsorption-elution was not performed

Other RH phenotypes: RH:-2, -3, -4, -23, 52,

RH:-2 inferred from the reported RHCE phenotypes of the carriers
RH:-3 inferred from the reported RHCE phenotypes of the carriers
RH:-4 inferred from the reported RHCE phenotypes of the carriers
RH:-23
RH:52 Table 2

Serology with monoclonal anti-D

(Table 1)
epitope pattern (Table 1)

Antigen Density (Ag/RBC)

14502 Ag/RBC, derived from the results obtained with 17 of the 59 monoclonal IgG anti-D tested
11032 Ag/RBC
range: 11018 - 13981, median: 12699 Ag/RBC, for 3 samples tested
12000 Ag/RBC (Table 2)

More phenotype data

Rhesus Similarity Index

0.0 (derived from the results obtained with 17 of the 59 monoclonal IgG anti-D tested)

Haplotype

Main CcEe phenotype association: Ce, but the association is not systematic (last update: Jan. 8, 2021)

Number of samples reported by haplotype
	ce	Ce	cE
ce	5	58	0
Ce		37	3
cE			0
CE

Reports by CcEe phenotype

with Ce

with ce

with CcEe

with Ccee

Main allele association: RHCE*02

Reports by allele association

RHCE*02
RHCE*02 or RHCE*01
- 1 sample

Alloimmunization

Antibodies in carriers

Antibody specificity: D (RH1)

Summary: allo-anti-D (last update: Nov. 17, 2019)

Detailed information

et al

Ab specificity: D (RH1)
Number (auto- or allo-):
Number listed as allo-: 1
Number listed as auto-:
Number of carriers of the allele assessed:
DAT: ND
Autologuous control: ND
Elution: ND
Autoadsorption: ND
Titer: ND
Was anti-LW excluded?: yes
Other antibodies detected: ND
Cross matches (with Ab and RBCs from different partial types): ND
Transfusion history: ND
Pregnancy history:
Anti-D Ig history: ND, probably none
Context: ND
Hemolytic consequences: ND
Comment:

Antibodies in D negative recipients

Alloimmunization in recipients: expected to be possible, see phenotype data

Reports

Summary: common allele, mainly in Eastern Asian individuals or compatible with such descent (last update: June 16, 2020)

Detailed reports

3/15 distribution of DVI samples from Southwestern Germany German
1 sample donor Japanese
0/17 distribution of DVI samples in donors Spanish
1/32 weak D or discordant between tube and IAT whithin a population of 305572 Chinese Han and minority donors Chinese Han
"about 70% partial D phenotypes were DVI type 3" among 400253 random donors, 1585 had apparent D negative phenotype, but among those, 279 were DEL and 69 were "typed as weak or partial D" in the Chinese (Shanghai) population
29/1274540 among donors with D negative or weak D phenotype, or patients with weak D phenotype (44 partial D types detailed, 149 weak D types not detailed) Shanghai Chinese
31/2493 donors with apparent D negative phenotype (108/2493 were in fact weak D or DEL) Han Chinese (Shanxi Province, Central China)
3/32 donors suspected to have weak D or partial D phenotypes sent to a reference laboratory Chinese (Zhejiang Han)
3/627 weak D typing (95% from patients, 5% from donors; 21,2% were identified as RHef00442 or RHef00446 by authors, "mostly (…) inconclusive serology consequent to recent transfusion") in the Belgian (Flanders) population
6/62 (1 heterozygous with RHef00357, 1 heterozygous with RHef00122) D variant donors Chinese, Southern Han
1/662 among 662 pregnant patients with apparent D negative phenotype, enroled for fetal genotyping in the Australian population
1/223 donors with D negative phenotype initially, found to have D antigen expression (67 of the 223 samples of the cohort) or samples referred with discrepant or weak D typing, or discrepancies with previous typings, or anti-D in D positive individuals (156 of the 223 samples of the cohort) in the Indian population
7/45 among 132479 donors screened, 45 had weak D phenotype in the northeastern Chinese Liaoning Province population
31/129 (20 hemizygous, 7 heterozygous with RHef00122, 2 with RHef00448, 1 with RHef00306, 1 with RHef00396) donors with weak D phenotype Thai
1 hemizygote among 278 samples selected for the development of nonspecific quantitative next-generation sequencing. (non-random samples, may have been reported in other studies)

Allele or phenotype frequency

0.00037 calculated allele frequency in the northeastern Chinese Liaoning Province population
0.12 allele frequency in donors with weak D phenotype Thai

2D diagram

Structure mapping

Movement	Mouse Input	Touch Input
Rotation	Primary Mouse Button	Single touch
Translation	Middle Mouse Button or Ctrl+Primary	Triple touch
Zoom	Scroll Wheel or Second Mouse Button or Shift+Primary	Pinch (double touch)
Slab	Ctrl+Second	Not Available

Links

The Human RhesusBase
Genbank: Z97026
Erythrogene

References

International Society of Blood Transfusion et al. International Society of Blood Transfusion (ISBT) allele table Online ressource, 1935. — Online ressource — [RHeference]
Wagner FF et al. Three molecular structures cause rhesus D category VI phenotypes with distinct immunohematologic features. Blood, 1998. [Citation] [RHeference]
Avent ND et al. The rhesus blood group system: insights from recent advances in molecular biology. Transfus Med Rev, 1999. [Citation] [RHeference]
Wagner FF et al. Weak D alleles express distinct phenotypes. Blood, 2000. [Citation] [RHeference]
Wagner FF et al. The DAU allele cluster of the RHD gene. Blood, 2002. [Citation] [RHeference]
Omi T et al. Isolation, characterization, and family study of DTI, a novel partial D phenotype affecting the fourth external loop of D polypeptides. Transfusion, 2002. [Citation] [RHeference]
Shao C et al. Whole exon 5 and intron 5 replaced by RHCE in DVa(Hus). J Hum Genet, 2004. [Citation] [RHeference]
Esteban R et al. The D category VI type 4 allele is prevalent in the Spanish population. Transfusion, 2006. [Citation] [RHeference]
Yan L et al. Molecular basis of D variants in Chinese persons. Transfusion, 2007. [Citation] [RHeference]
Li Q et al. Molecular basis of the RHD gene in blood donors with DEL phenotypes in Shanghai. Vox Sang, 2009. [Citation] [RHeference]
Silvy M et al. Weak D and DEL alleles detected by routine SNaPshot genotyping: identification of four novel RHD alleles. Transfusion, 2011. [Citation] [RHeference]
Ye L et al. Partial D phenotypes and genotypes in the Chinese population. Transfusion, 2012. [Citation] [RHeference]
von Zabern I et al. D category IV: a group of clinically relevant and phylogenetically diverse partial D. Transfusion, 2013. [Citation] [RHeference]
Daniels G et al. Variants of RhD--current testing and clinical consequences. Br J Haematol, 2013. [Citation] [RHeference]
Wagner FF et al. The Rhesus Site. Transfus Med Hemother, 2014. [Citation] [RHeference]
Ye SH et al. A comprehensive investigation of RHD polymorphisms in the Chinese Han population in Xi'an. Blood Transfus, 2014. [Citation] [RHeference]
Van Sandt VS et al. RHD variants in Flanders, Belgium. Transfusion, 2015. [Citation] [RHeference]
He J et al. Molecular basis and zygosity determination of D variants including identification of four novel alleles in Chinese individuals. Transfusion, 2015. [Citation] [RHeference]
Ji YL et al. RHD genotype and zygosity analysis in the Chinese Southern Han D+, D- and D variant donors using the multiplex ligation-dependent probe amplification assay. Vox Sang, 2017. [Citation] [RHeference]
Hyland CA et al. Non-invasive fetal RHD genotyping for RhD negative women stratified into RHD gene deletion or variant groups: comparative accuracy using two blood collection tube types. Pathology, 2017. [Citation] [RHeference]
Fichou Y et al. Molecular basis of weak D expression in the Indian population and report of a novel, predominant variant RHD allele. Transfusion, 2018. [Citation] [RHeference]
Zhang X et al. Molecular and computational analysis of 45 samples with a serologic weak D phenotype detected among 132,479 blood donors in northeast China. J Transl Med, 2019. [Citation] [RHeference]
Thongbut J et al. Comprehensive Molecular Analysis of Serologically D-Negative and Weak/Partial D Phenotype in Thai Blood Donors. Transfus Med Hemother, 2020. [Citation] [RHeference]
Stef M et al. RH genotyping by nonspecific quantitative next-generation sequencing. Transfusion, 2020. [Citation] [RHeference]
Floch A et al. Comment from Rheference Online ressource, 2020. — Online ressource — [RHeference]

Last update: Jan. 8, 2021

RHD*06.03.01 - RHD*DVI.3(ISBT table: RHD partial D v5.0)