The human gene encoding acetylcholinesterase is located on the long arm of chromosome 7.

Acetylcholinesterase (AChE) is a secreted enzyme essential for regulating cholinergic neurotransmission at neuronal and neuromuscular synapses. In view of the altered expression of AChE in some central neurological and neuromuscular disorders with a probable genetic basis, we have identified the chromosomal location of the gene encoding AChE. Chromosomal in situ suppression hybridization analysis revealed a single gene to be at 7q22, a result which was confirmed by PCR analysis of genomic DNA from a human/hamster somatic cell hybrid containing a single human chromosome 7. The AChE gene thus maps to the same region in which frequent nonrandom chromosome 7 deletions occur in leukemias of myeloid cell precursors known to express the enzyme during normal differentiation.     

The human neurofilament gene (NEFL) is located on the short arm of chromosome 8

We have localized the gene coding for the human neurofilament light chain (NEFL) to chromosome band 8p2.1 by Southern blotting of DNA from hybrid cell panels and in situ hybridization to metaphase chromosomes.     

The corticotropin releasing hormone gene is expressed in human placenta

Maternal plasma immunoreactive corticotropin-releasing hormone (IR-CRH) increases progressively with pregnancy. This elevated plasma IR-CRH is presumably secreted by the placenta. To investigate further this hypothesis, we searched for the CRH mRNA and its peptide product in full term human placentae. Using a radiolabelled 48-mer oligonucleotide probe complementary to a portion of human CRH mRNA, we identified a 1300 nucleotide RNA from human placenta and rat hypothalami. We next examined the chromatographic characteristics of the placental IR-CRH. The bulk of the IR-CRH extracted from placenta and the IR-CRH secreted in vitro by placental fragments had the same chromatographic profiles as synthetic CRH. These findings indicate that the CRH gene is expressed in human placenta and imply that this organ is a site of CRH biosynthesis during pregnancy.     

The angiotensinogen gene is located on mouse chromosome 8

We have recently identified a cis-acting genetic lesion affecting angiotensinogen gene expression in testis and salivary gland. Accordingly, the angiotensinogen gene was assigned to mouse chromosome 8 by screening a series of hybrid cell lines for retention of mouse angiotensinogen sequences by genomic Southern analysis. In AKXD recombinant inbred mice, the angiotensinogen gene is 2.4 +/- 1.8 centiMorgan from Rn7S-8,a 7S RNA gene located on chromosome 8 (Taylor, B.A., personal communication). However, the segregation of salivary and testicular angiotensinogen expression phenotypes into inbred mouse strains was not concordant with the known chromosome 8 proviruses Emv-2, Mtv-21, Xmv-12 or Xmv-26.     

Human parathyroid hormone gene (PTH) is on short arm of chromosome 11

The human gene for parathyroid hormone (PTH) was chromosomally mapped using human-rodent hybrids and Southern filter hybridization of cell hybrid DNA. A recombinant DNA probe containing human PTH cDNA insert (pPTHm122) hybridized to a 3.7-kb fragment in human DNA cleaved with the restriction enzyme EcoRI. By correlating the presence of this fragment in somatic cell hybrid DNA with the human chromosomal content of the hybrid cells, the PTH gene was mapped to the short arm of the chromosome 11.     

The human calcitonin gene is located on the short arm of chromosome 11

By molecular hybridization of human calcitonin cDNA probes to DNA from human-rodent hybrid cells containing identified human chromosomes, we have mapped the human calcitonin gene to the short arm of chromosome 11. This location has been confirmed by in situ hybridization, which further localized the calcitonin gene to region 11p13-15. The significance of this region regarding gene linkage and possible markers for inherited cancers is discussed.     

Factor XI gene (F11) is located on the distal end of the long arm of human chromosome 4

Chromosomal localization of the gene for human coagulation factor XI (F11) was determined by in situ hybridization using a genomic DNA probe which contained exons VIII, IX, and X of the gene. The results indicate that the gene is located at 4q35.     

The gene for aromatase (P450arom) in the chicken is located on the long arm of chromosome 1

An 125I-labeled partial cDNA for the chicken aromatase P450 was used for in situ hybridization to chromosomes from primary chicken embryo fibroblast cultures. The results indicate that the gene that encodes aromatase is located on the long arm of chromosome 1 at approximately position 0.16.     

The gene encoding human vimentin is located on the short arm of chromosome 10.

The gene for vimentin, an intermediate-filament protein, is growth regulated. We used Southern blot analysis and in situ chromosome hybridization to determine the location of the human vimentin gene. Our results show that there is only one copy of the vimentin gene and that it is located on the short arm of chromosome 10 (10pter-10q23) close to the interleukin-2 receptor gene, which is also growth regulated. In situ hybridization studies suggest that the most likely location of the vimentin gene is 10p13. Sequence similarities and homologies of human vimentin to other genes are presented.     

Interstitial delection of the long arm of chromosome 8

Summary This report describes a polymalformed 18-month-old male with an interstitial deletion of the long arm of chromosome 8. His karyotype is: 46,XY,del(8)(q21).     

The pronatriodilatin gene is located on the distal short arm of human chromosome 1 and on mouse chromosome 4.

Atrial natriuretic factors (ANF) are polypeptides having natriuretic, diuretic, and smooth muscle-relaxing activities that are synthesized from a single larger precursor: pronatriodilatin. Chromosomal assignment of the gene coding for human pronatriodilatin was accomplished by in situ hybridization of a [3H]-labeled pronatriodilatin probe to human chromosome preparations and by Southern blot analysis of somatic cell hybrid DNAs with normal and rearranged chromosomes 1. The human pronatriodilatin gene was mapped to the distal short arm of chromosome 1, in band 1p36. Southern blot analysis of mouse X Chinese hamster somatic cell hybrids was used to assign the mouse pronatriodilatin gene to chromosome 4. This assignment adds another locus to the conserved syntenic group of homologous genes located on the distal half of the short arm of human chromosome 1 and on mouse chromosome 4.     

Mapping of human thyroglobulin gene on the long arm of chromosome 8 by in situ hybridization

Summary We report the structural organization of a segment of the human thyroglobulin gene, located 70kb from the 3 end of the gene, containing the exons 8 and 9 starting from the 3 end. Selected probes from this region have been used for the chromosomal mapping of the thyroglobulin gene by in situ hybridization techniques. Only one site in the human haploid karyotype is labeled with the genomic DNA probes. Twenty percent of the grains are localized on the long arm of chromosome 8, mostly in the subregion q-2-23 q-2-24 of the long arm of chromosome 8. The localization of the autoradiographic grains suggests a subregional assignment of the human thyroglobulin gene locus to 8q 2–23 or 8q 2–24.     

Structural analysis of the regulatory region of the human corticotropin releasing hormone gene

A DNA fragment containing the human corticotropin releasing hormone (CRH) gene, along with 9 kb of upstream and 4 kb of downstream sequences, was isolated from a human genomic DNA library. Nucleotide sequence analysis of the proximal 918 nucleotides 5' flanking the putative major mRNA start site of the human gene and comparison to the 866 nucleotide long homologous ovine sequence, revealed that this region of the CRH gene consists of two distinct areas with different degrees of homology, varying from 72% to 94%. The putative functional features of the human sequence were identified. Many, but not all, features were conserved in the ovine sequence. The highly conserved nature of the regulatory region of this gene makes it a good candidate for tracing possible related genetic defects of the hypothalamic-pituitary-adrenal (HPA) axis.     

Langer-Giedion syndrome and deletion of the long arm of chromosome 8

Summary Reexamination of a previously reported patient with 8q interstitial deletion reveals the development of a tricho-rhinophalangeal syndrome type II (Langer-Giedion syndrome) with multiple exostoses at the age of 4 years. Together with the two previous reports on 8q deletion and TRP II syndrome the present observation strongly supports the causal relationship between TRP II syndrome and 8q deletion.     

A new aluminum tolerance gene located on rye chromosome arm 7RS

Rye has one of the most efficient groups of genes for aluminum tolerance (Alt) among cultivated species of Triticeae. This tolerance is controlled by, at least, three independent and dominant loci (Alt1, Alt2, and Alt3) located on chromosome arms 6RS, 3RS, and 4RL, respectively. The segregation of Alt genes and several random amplified polymorphic DNA (RAPD), Secale cereale inter-microsatellite (SCIM), and Secale cereale microsatellite (SCM) markers in three F(2) between a tolerant cultivar (Ailés) and a non-tolerant inbred line (Riodeva) were studied. The segregation ratio obtained for aluminum tolerance in the three F(2) populations analyzed was 3:1 (tolerant:non-tolerant), indicating that tolerance is controlled by one dominant locus. SCIM811(1376) was linked to an Alt gene in the three F(2) populations studied, and three different SCIMs and one RAPD (SCIM811(1376), SCIM812(626), SCIM812(1138), and OPQ4(725)) were linked to the Alt gene in two F(2) populations. This result indicated that the same Alt gene was segregating in the three crosses. SCIM819(1434) and OPQ4(578) linked to the tolerance gene in one F(2) population were located using wheat-rye ditelosomic addition lines on the 7RS chromosome arm. The Alt locus is mapped between SCIM819(1434) and the OPQ4(578) markers. Two microsatellite loci (SCM-40 and SCM-86), previously located on chromosome 7R, were also linked to the Alt gene. Therefore, the Alt gene segregating in these F(2) populations is new and probably could be orthologous to the Alt genes located on wheat chromosome arm 4DL, on barley chromosome arm 4HL, on rye chromosome arm 4RL, and rice chromosome 3. This new Alt gene located on rye chromosome arm 7RS was named Alt4. A map of rye chromosome 7R with the Alt4 gene, 16 SCIM and RAPD, markers and two SCM markers was obtained.     

Langer-Giedion syndrome and deletion in the long arm of chromosome 8

Del(8) (q24.11-q24.13) were detected in 3 patients with typical Langer-Giedion syndrome (LGS) and studied by high-resolution methods. Analysis of the literature strongly suggests the chromosomal ethiology of the LGS, because in all patients examined in detail a deletion of the segment 8(q24.11-q24.13) was revealed, which is critical for the LGS. Interrelationships between the LGS and two monogenic conditions-tricho-rhino-phalangeal syndrome type I and multiple exostoses are discussed. The possible role of c-myc oncogene in exostoses' (including those in LGS) origin is anticipated.     

Isolation of a new polymorphic TC maize microsatellite located on the long arm of chromosome 10

Simple sequence repeats (SSR), also called microsatellites, were previously proved to be an important class of DNA markers. The isolation, mapping and designing of primers to the flanking regions of a new maize SSR is reported. The new marker, with a core motif of (TC) 12, designated as MZETC34, was mapped to the long arm of chromosome 10.     

Effects of corticotropin releasing hormone on appetitive behaviors.

Corticotropin releasing hormone (CRH) is a 41-residue hypothalamic neuropeptide that has been shown to have potent behavioral effects in animals and has been implicated in clinical disorders in man. This review focuses on those aspects of the behavioral effects of CRH related to food-associated behaviors. The effects of CRH on food intake are compared with its effects on performances maintained by food presentation, and contrasted with the effects of CRH on performances maintained by other events. The effects of CRH antagonists and drugs that interact with the behavioral effects of CRH are also reviewed, particularly with respect to their direct effects on food intake. Lastly, data assessing the effects of CRH administration on central neurotransmitter levels are presented and compared with levels seen in clinical populations. The effect of CRH on food intake seen in animals is consistent with a putative role for CRH in clinical syndromes where appetite suppression is apparent. Since some of the effects of CRH on food intake are subject to pharmacological intervention, strategies directed at peptidergic mechanisms of psychiatric disorders should be explored.     

A new XmnI polymorphism in the regulatory region of the corticotropin releasing hormone gene

We describe the first polymorphism in the 5 flanking region of the corticotropin releasing hormone (CRH) gene. DNA sequencing analysis identified a T G base substitution in the 5 flanking region of the gene. This substitution leads to the loss of anXmnI site at position 255 of the Genbank entry X67661. The frequency analysis in 32 Caucasians revealed that it is a rare polymorphism, with only three observed heterozygous individiuals for this polymorphism.