V.J. Hyland

Interleukin 4 is at 5q31 and interleukin 6 is at 7p15

SummaryDNA probes to the human interleukin 4 (IL4) and interleukin 6 (IL6) genes have been used for in situ hybridization to normal human chromosomes and Southern blot analysis of a series of mouse-human hybrid cell lines. IL4 maps to 5q31, the same location as IL5 and other haemopoietic growth factor genes. IL6 maps to 7p15. The significance of these locations is discussed.

Fine mapping of gene probes and anonymous DNA fragments to the long arm of chromosome 16

The fragile site, FRA16B, at 16q22.100 and four different translocations with breakpoints at 16q22.102, 16q22.105, 16q22.108, and 16q22.3 were used to locate and order DNA probes. This was achieved by Southern analysis of a somatic cell hybrid panel containing portions of chromosome 16 and by in situ hybridization. The anonymous DNA fragments D16S6, D16S10, and D16S11 were proximal to FRA16B and located at 16q13----q22.100. D16S4 and LCAT were located at 16q22.100----q22.102. TAT and HP were located at 16q22.105----q22.108. CTRB was located distal to 16q22.105 and therefore is in the distal half of 16q22. The order of markers in this region was determined as centromere-D16S6, D16S11, D16S10, MT-FRA16B-D16S4, LCAT-HP,TAT,CTRB-APRT- telomere. Linkage studies to determine map distances between the closest markers flanking the fragile site are now in progress.

Human prostate-specific antigen (APS) is a member of the glandular kallikrein gene family at 19q13

The amino acid sequence of human prostate-specific antigen (APS) suggests that it is a member of the glandular kallikrein subfamily of serine proteases. In the mouse, the kallikrein-like family is localized in a single locus on chromosome 7, while other serine proteases are distributed over a variety of different chromosomes. To investigate the physical relationship between the human kallikrein genes, we have used in situ hybridization and Southern analysis of a human x mouse somatic cell hybrid panel to map the APS gene to 19q13, concordant with the renal kallikrein KLK1 gene. This finding indicates that APS is a member of a human kallikrein-like gene family with analogous organization to that of the mouse.

A new location for the human adenine phosphoribosyltransferase gene (APRT) distal to the haptoglobin (HP) and fra(16)(q23) (FRA16D) loci

The human adenine phosphoribosyltransferase gene (APRT) was mapped with respect to the haptoglobin gene (HP) and the fragile site at 16q23.2 (FRA16D). A subclone of APRT and a cDNA clone of HP were used for molecular hybridization to DNA from mouse-human hybrid cell lines containing specific chromosome 16 translocations. The APRT subclone was used for in situ hybridization to chromosomes expressing FRA16D. APRT was found to be distal to HP and FRA16D and was localized at 16q24, making the gene order cen-FRA16B-HP-FRA16D-APRT-qter.

Genetic mapping of new RFLPs at Xq27–q28

The development of the human gene map in the region of the fragile X mutation (FRAXA) at Xq27 has been hampered by a lack of closely linked polymorphic loci. The polymorphic loci DXS369 (detected by probe RN1), DXS296 (VK21A, VK21C), and DXS304 (U6.2) have recently been mapped to within 5 cM of FRAXA. The order of loci near FRAXA has been defined on the basis of physical mapping studies as cen-F9-DXS105-DXS98-DXS369-DXS297-FRAXA-++ +DXS296-IDS-DXS304-DXS52-qter. The probe VK23B detected HindIII and XmnI restriction fragment length polymorphisms (RFLPs) at DXS297 with heterozygote frequencies of 0.34 and 0.49, respectively. An IDS cDNA probe, pc2S15, detected StuI and TaqI RFLPs at IDS with heterozygote frequencies of 0.50 and 0.08, respectively. Multipoint linkage analysis of these polymorphic loci in normal pedigrees indicated that the locus order was F9-(DXS105, DXS98)-(DXS369, DXS297)-(DXS293,IDS)-DXS304-DXS52. The recombination fractions between adjacent loci were F9-(0.058)-DXS105-(0.039)-DXS98-(0.123)-DXS369-(0.00)- DXS297-(0.057)-DXS296- (0.00)-IDS-(0.012)-DXS304-(0.120)-DXS52. This genetic map will provide the basis for further linkage studies of both the fragile X syndrome and other disorders mapped to Xq27-q28.

Mapping the short arm of human chromosome 16

Physical mapping of 13 different breakpoints on the short arm of chromosome 16 using previously mapped probes and the subsequent mapping of additional probes enabled the division of this portion of the chromosome into six different intervals. D16S94 was mapped between HBA and D16S80 and is closer to PKD1 than either HBA or D16S80. A tight linkage group which includes FRA16A, D16S8, and D16S79 was identified. Seven breakpoints, including FRA16A, could not be separated by probe localizations. This study provides the basis for the development of detailed maps of the short arm of chromosome 16.

An ultrahigh-sulphur keratin gene of the human hair cuticle is located at 11q13 and cross-hybridizes with sequences at 11p15

A human hair cuticle ultrahigh-sulphur keratin (UHSK) gene (KRN1) has been mapped by Southern analysis of a somatic cell hybrid panel and by in situ hybridization. A probe containing the coding region of this gene mapped to 11pter->11q21 using the hybrid cell panel and on in situ hybridization mapped to two regions on chromosome 11: the distal part of 11p15, most likely 11p15.5, and the distal part of 11q13, most likely 11q13.5. A probe from the 3′ non-coding region of KRN1 mapped to 11q13.5 indicating that this was the map location of the cloned gene. The sequence of 11p15.5 is termed KRN1-like (KRN1L). The results reveal that the cuticle UHSK gene family is clustered in the human genome.

Assignment of anonymous DNA probes to specific intervals of human chromosomes 16 and X

SummaryAnonymous DNA probes mapping to human chromosome 16 and the distal region of the human X chromosome were isolated from a genomic library constructed using lambda EMBL3 and DNA from a mouse/human hybrid. The hybrid cell contained a der(16)t(X;16)(q26;q24) as the only human chromosome. Fifty clones were isolated using total human DNA as a hybridisation probe. Forty six clones contained single copy DNA in addition to the repetitive DNA. Pre-reassociation with sonicated human DNA was used to map these clones by a combination of Southern blot analysis of a hybrid cell panel containing fragments of chromosomes 16 and X and in situ hybridisation. One clone mapped to 16pter →16p13.11, one clone to 16p13.3→16p13.11, four clones to 16p13.3→16p13.13, two clones to 16p13.13→16p13.11, one clone to 16p13.11, seven clones to 16p13.11→16q12 or 16q13, four clones to 16q12 or 16q13, three clones to 16q13→16q22.1, four clones to 16q22.105→16q24, and nineteen clones to Xq26→Xqter. Two clones mapping to 16p13 detected RFLPs. VK5 (D16S94) detected an MspI RFLP, PIC 0.37. VK20 (D16S96) detected a TaqI RFLP, PIC 0.37 and two MspI RFLPs, PIC 0.30 and 0.50. The adult polycystic kidney disease locus (PKD1) has also been assigned to 16p13. The RFLPs described will be of use for genetic counselling and in the isolation of the PKD1 gene. Similarly, the X clones may be used to isolate RFLPs for genetic counselling and the isolation of genes for the many diseases that map to Xq26→qter.

Restriction fragment length polymorphisms detected by anonymous DNA probes mapped to defined intervals of human chromosome 16.

SummaryThree anonymous DNA probes ACH207, ACH224, and ACH202, isolated from a flow-purified chromosome 16 library and mapped to defined intervals of human chromosome 16, detected restriction fragment length polymorphisms (RFLPs). The RFLPs were of simple two allele types. The ACH207 (D16S4) probe detected a TaqI and an MspI RFLP with polymorphism information content (PIC) values of 0.30 and 0.27; the ACH224 (D16S5) probe detected and RsaI RFLP, PIC value of 0.34; and the ACH202 (D16S14) probe detected an XbaI RFLP, PIC value of 0.22.

A linkage group with FRA16B (the fragile site at 16q22.1)

SummaryPolymorphic DNA markers located in bands 16q13, 16q21 and 16q22 were examined for recombination with FRA16B, the fragile site at 16q22.100. A tight linkage cluster D16S10-FRA16B-D16S4-HP was established. There were no recombinants