Your search keyword '"Iannuzzi L"' showing total 48 results

1. Physical Mapping of 20 Unmapped Fragments of the Btau_4.0 Genome Assembly in Cattle, Sheep and River Buffalo.

Author

De Lorenzi, L., Genualdo, V., Perucatti, a., Iannuzzi, a., Iannuzzi, L., and Parma, P.

Subjects

BIOINFORMATICS, GENOMIC information retrieval, NUCLEOTIDE sequence, HOMOLOGOUS chromosomes, GENOMICS

Abstract

The recent advances in sequencing technology and bioinformatics have revolutionized genomic research, making the decoding of the genome an easier task. Genome sequences are currently available for many species, including cattle, sheep and river buffalo. The available reference genomes are very accurate, and they represent the best possible order of loci at this time. In cattle, despite the great accuracy achieved, a part of the genome has been sequenced but not yet assembled: these genome fragments are called unmapped fragments. In the present study, 20 unmapped fragments belonging to the Btau_4.0 reference genome have been mapped by FISH in cattle (Bos taurus, 2n = 60), sheep (Ovis aries, 2n = 54) and river buffalo (Bubalus bubalis, 2n = 50). Our results confirm the accuracy of the available reference genome, though there are some discrepancies between the expected localization and the observed localization. Moreover, the available data in the literature regarding genomic homologies between cattle, sheep and river buffalo are confirmed. Finally, the results presented here suggest that FISH was, and still is, a useful technology to validate the data produced by genome sequencing programs. Copyright © 2013 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2013

2. Cytogenetic Elaboration of a Novel Reciprocal Translocation in Sheep.

Author

Iannuzzi, A., Perucatti, A., Genualdo, V., De Lorenzi, L., Di Berardino, D., Parma, P., and Iannuzzi, L.

Subjects

CYTOGENETICS, SHEEP as laboratory animals, CHROMOSOMAL translocation, DOMESTIC animals, KARYOTYPES, FLUORESCENCE in situ hybridization

Abstract

Reciprocal translocations represent one of the most common structural chromosomal rearrangements observed in both humans and domestic animals. In these translocations, the balanced forms are most frequent but may remain undetected because the carriers show a normal phenotype. For this reason, routine cytogenetic analysis of domestic animals should necessarily rely on banded karyotypes. In fact, during a screening analysis, carried out on phenotypically normal young sheep (Ovis aries, OAR, 2n = 54) from Laticauda-Comisana hybrids, a new structural rearrangement was detected. Two abnormal acrocentric chromosomes (the smallest and the largest one) were found in all metaphases of this carrier animal, suggesting the presence of a reciprocal translocation (rcp). CBA and RBA banding were performed in order to characterize the translocation, and FISH with chromosome-specific BAC probes and telomere probes was applied to confirm the cytogenetic data. The translocation was classified as rcp(4q;12q)(q13;q25). [ABSTRACT FROM AUTHOR]

Published

2013

3. A New Translocation t(1p;18) in an Italian Mediterranean River Buffalo (Bubalus bubalis, 2n = 50) Bull: Cytogenetic, Fertility and Inheritance Studies.

Author

albarella, S., Ciotola, F., Coletta, a., Genualdo, V., Iannuzzi, L., and Peretti, V.

Subjects

WATER buffalo, CHROMOSOMAL translocation, CYTOGENETICS, FERTILITY, SEX chromosomes, GENE mapping

Abstract

In recent years increasing attention has been paid to the cytogenetic control of Italian Mediterranean river buffalo (BBU) bulls authorized as sires which are registered in the stud book. Chromosome abnormalities described in this species are mainly numerical and affecting sex chromosomes. During routine cytogenetic analyses performed on young Italian Mediterranean river buffalo bulls in the progeny test, 1 animal was found to be carrier of a never before reported translocation t(1p;18) originated by fission of BBU1 and subsequent centric fusion of BBU1p with BBU18 as demonstrated by both R-banding and FISH-mapping techniques using specific molecular markers of BBU1p (DEFB1) and BBU18 (GPI). According to sperm analyses the semen characteristics were in physiological ranges, but the calf crop percentage was only 48.77% instead of 70-80%. Cytogenetic analyses performed on 50 offspring (36 females and 14 males) showed that 15 of them (30%) were carriers of the same translocation. Copyright © 2012 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2012

4. Disorders of Sexual Development and Abnormal Early Development in Domestic Food-Producing Mammals: The Role of Chromosome Abnormalities, Environment and Stress Factors.

Author

Favetta, L.A., Villagómez, D.A.F., Iannuzzi, L., Di Meo, G., Webb, A., Crain, S., and King, W.A.

Abstract

The management of disorders of sexual development (DSD) in humans and domestic animals has been the subject of intense interest for decades. The association between abnormal chromosome constitutions and DSDs in domestic animals has been recorded since the beginnings of conventional cytogenetic analysis. Deviated karyotypes consisting of abnormal sex chromosome sets and/or the coexistence of cells with different sex chromosome constitutions in an individual seem to be the main causes of anomalies of sex determination and sex differentiation. In recent years, a growing interest has developed around the environmental insults, such as endocrine-disrupting compounds (EDC) and heat stressors, which affect fertility, early embryonic development and, in some instances, directly the sex ratio and/or the development of 1 specific sex versus the other. A variety of chemical compounds present in the environment at low doses has been shown to have major effects on the reproductive functions in human and domestic animals following prolonged exposure. In this review, we present an overview of congenital/chromosomal factors that are responsible for the DSDs and link them and the lack of proper embryonic development to environmental factors that are becoming a major global concern. Copyright © 2011 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2012

5. Molecular and Cytogenetic Studies in a Case of XX SRY-Negative Sex Reversal in an Arabian Horse.

Author

Ciotola, F., Albarella, S., Pasolini, M.P., Auletta, L., Esposito, L., Iannuzzi, L., and Peretti, V.

Abstract

An 18-month-old Arabian foal characterized by a stallion-like appearance was submitted for cytogenetic and molecular genetics examinations due to abnormalities of external genitalia and the presence of ovotestis-like structures in the abdominal cavity. By RB-banding the animal showed the normal female equine karyotype (2n = 64,XX). Molecular analysis revealed the absence of the SRY and ZFY genes and the presence of ZFX, a typical female equine condition. The entire RSPO1 coding region was examined to exclude its involvement. Although a SNP was found in exon 3, it was not responsible for an amino acid substitution. Copyright © 2011 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2012

6. A Rare Case of Centric Fission and Fusion in a River Buffalo (Bubalus bubalis, 2n = 50) Cow with Reduced Fertility.

Author

Di Meo, G. P., Perucatti, A., Genualdo, V., Iannuzzi, A., Sarubbi, F., Caputi-Jambrenghi, A., Incarnato, D., Peretti, V., Vonghia, G., and Iannuzzi, L.

Subjects

GENE fusion, CHROMOSOME abnormalities, CYTOGENETICS, WATER buffalo, GENETIC markers, KARYOTYPES

Abstract

A 5-year-old river buffalo cow underwent cytogenetic investigation since it had only one male offspring, apparently with normal body constitution, which died one month after birth. The female carrier had normal body conformation and internal sex adducts, as revealed by rectal palpation performed by a specialist veterinary practitioner. The cow was found to carry a complex and rare chromosome abnormality. Indeed, a centric fission of one river buffalo (BBU) chromosome 1 with a subsequent (or simultaneous) centric fusion of BBU1p with BBU23 was revealed by both RBA-banding and specific molecular markers of BBU1p (DEFB1) and BBU23 (ACTA2). CBA-banding revealed a pale, very small C-band in the der1 (BBU1q) and a prominent C-band on the new biarmed chromosome originated by rob(1p;23). Both telomeric probes and AgNOR staining confirmed the Robertsonian translocation (rob), both FITC-signals and the NORs (BBU23) being telomerically located. Furthermore, telomeric signals on der1 (BBU1q) indicate that these 2 chromosomal events may be the result of a reciprocal translocation which occurred between BBU1 and BBU23. Copyright © 2010 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2010

7. Numerical Sex Chromosome Aberrations and Abnormal Sex Development in Horse and Sheep.

Author

Di Meo, G.P., Neglia, G., Perucatti, A., Genualdo, V., Iannuzzi, A., Crocco, D., Incarnato, D., Romano, G., Parma, P., and Iannuzzi, L.

Published

2010

8. Chromosome Evolution in Domestic Bovids as Revealed by Chromosome Banding and FISH-Mapping Techniques.

Author

Iannuzzi, L., King, W. A., and Di Berardino, D.

Subjects

*LIVESTOCK genetics, *MOLECULAR genetics, *CYTOGENETICS, *GENE mapping, *ANIMAL genetics, *CHROMOSOME analysis, *FLUORESCENCE in situ hybridization

Abstract

The present review summarizes the basic cytogenetic information available pertaining to the most important Bovidae species, namely cattle, buffalo, sheep and goat, with the aim of tracing their evolutionary relationships and to provide – for the first time – the hypothetical ancestral karyotype of the Bovinae-Caprinae subfamilies, also in relation to the other nondomestic species which are included in this important taxonomic family. Evolution of the Bovinae-Caprinae autosomes and gonosomes is discussed on the basis of the most recent advances in chromosome banding, linkage studies, FISH-mapping and molecular information. Copyright © 2009 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2009

9. Molecular Cytogenetics and Gene Mapping in Sheep (Ovis aries, 2n = 54).

Author

Goldammer, T., Di Meo, G. P., Lühken, G., Drögemüller, C., Wu, C. H., Kijas, J., Dalrymple, B. P., Nicholas, F. W., Maddox, J. F., Iannuzzi, L., and Cockett, N. E.

Subjects

MOLECULAR genetics, CYTOGENETICS, LIVESTOCK genetics, PHYLOGENY, ANIMAL genetics, ANIMAL breeding, GENE mapping, GENETIC markers

Abstract

The development of a completely annotated sheep genome sequence is a key need for understanding the phylogenetic relationships and genetic diversity among the many different sheep breeds worldwide and for identifying genes controlling economically and physiologically important traits. The ovine genome sequence assembly will be crucial for developing optimized breeding programs based on highly productive, healthy sheep phenotypes that are adapted to modern breeding and production conditions. Scientists and breeders around the globe have been contributing to this goal by generating genomic and cDNA libraries, performing genome-wide and trait-associated analyses of polymorphism, expression analysis, genome sequencing, and by developing virtual and physical comparative maps. The International Sheep Genomics Consortium (ISGC), an informal network of sheep genomics researchers, is playing a major role in coordinating many of these activities. In addition to serving as an essential tool for monitoring chromosome abnormalities in specific sheep populations, ovine molecular cytogenetics provides physical anchors which link and order genome regions, such as sequence contigs, genes and polymorphic DNA markers to ovine chromosomes. Likewise, molecular cytogenetics can contribute to the process of defining evolutionary breakpoints between related species. The selective expansion of the sheep cytogenetic map, using loci to connect maps and identify chromosome bands, can substantially contribute to improving the quality of the annotated sheep genome sequence and will also accelerate its assembly. Furthermore, identifying major morphological chromosome anomalies and micro-rearrangements, such as gene duplications or deletions, that might occur between different sheep breeds and other Ovis species will also be important to understand the diversity of sheep chromosome structure and its implications for cross-breeding. To date, 566 loci have been assigned to specific chromosome regions in sheep and the new cytogenetic map is presented as part of this review. This review will also summarize the current cytogenomic status of the sheep genome, describe current activities in the sheep cytogenomics research sector, and will discuss the cytogenomics data in context with other major sheep genomics projects. Copyright © 2009 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2009

10. Molecular Cytogenetics and Comparative Mapping in Goats (Capra hircus, 2n = 60).

Author

Schibler, L., Di Meo, G. P., Cribiu, E. P., and Iannuzzi, L.

Subjects

MOLECULAR genetics, CYTOGENETICS, CATTLE genetics, LIVESTOCK genetics, ANIMAL genetics, GENE mapping, HOMOLOGY (Biology), FLUORESCENCE in situ hybridization

Abstract

Few goat genome analysis projects have been developed in the last 10 years. The aim of this review was to compile and update all available cytogenetic mapping data, according to the last goat chromosome nomenclature, as well as human and cattle whole genome sequences. In particular, human regions homologous to most of the FISH-mapped microsatellites were identified in silico. This new goat cytogenetic map made it possible to refine delineation of conserved segments relative to the human and cattle genomic sequence. These improvements did not lead to detection of major new rearrangements within ruminants but confirmed the good conservation of synteny and the numerous intrachromosomal rearrangements observed between goats and humans. Copyright © 2009 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2009

11. Classical and Molecular Cytogenetics of Disorders of Sex Development in Domestic Animals.

Author

Villagómez, D. A. F., Parma, P., Radi, O., Di Meo, G., Pinton, A., Iannuzzi, L., and King, W. A.

Subjects

MOLECULAR genetics, CYTOGENETICS, SEX chromosome abnormalities, SEX chromosomes, DOMESTIC animal genetics, ANIMAL genetics

Abstract

The association of abnormal chromosome constitutions and disorders of sex development in domestic animals has been recorded since the beginnings of conventional cytogenetic analysis. Deviated karyotypes consisting of abnormal sex chromosome sets (e.g. aneuploidy) and/or the coexistence of cells with different sex chromosome constitutions (e.g. mosaicism or chimerism) in an individual seem to be the main causes of anomalies of sex determination and sex differentiation. Molecular cytogenetics and genetics have increased our understanding of these pathologies, where human and mouse models have provided a substantial amount of knowledge, leading to the discovery of a number of genes implicated in mammalian sex determination and differentiation. Additionally, other genes, which appeared to be involved in ovary differentiation, have been found by investigations in domestic species such as the goat. In this paper, we present an overview of the biology of mammalian sex development as a scientific background for better understanding the body of knowledge of the clinical cytogenetics of disorders of sex development in domestic animals. An attempt to summarize of what has been described in that particular subject of veterinary medicine for each of the main mammalian domestic species is presented here. Copyright © 2009 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2009

12. X-Y Sperm Aneuploidy in 2 Cattle (Bos taurus) Breeds as Determined by Dual Color Fluorescent in situ Hybridization (FISH).

Author

Nicodemo, D., Pauciullo, A., Castello, A., Roldan, E., Gomendio, M., Cosenza, G., Peretti, V., Perucatti, A., Di Meo, G. P., Ramunno, L., Iannuzzi, L., Rubes, J., and Di Berardino, D.

Subjects

ANEUPLOIDY, SPERMATOZOA, CATTLE breeding, X chromosome, Y chromosome, CYTOGENETICS, ANIMAL genetics, FLUORESCENCE in situ hybridization

Abstract

The present study was undertaken to investigate aneuploidy rates in the sperm populations of 2 cattle (Bos taurus) breeds by using dual color fluorescent in situ hybridization (FISH) with Xcen and Y chromosome-specific painting probes, obtained by chromosome microdissection and DOP-PCR. Frozen semen from 10 Italian Friesian and 10 Italian Brown testing bulls was used for the investigation. For each bull, more than 5,000 sperm were analyzed, for a total of 52,586 and 51,342 sperm cells for the 2 breeds, respectively. The present study revealed – in both breeds – a preponderance of the Y-bearing sperm compared to the X-bearing sperm. Within each breed, a statistically significant variation in the various classes of aneuploidy (XX, YY and XY) was found: differences were found in the Friesian breed among the 3 diploidy classes, and in the Brown breed, among the 3 disomy classes (p < 0.05) as well as among the 3 diploidy classes (p < 0.01). However, the 2 breeds did not differ significantly in the overall mean rates of X-Y aneuploidy (disomy + diploidy) which amounts to 0.162% in the Italian Friesian and 0.142% in the Italian Brown. When meiosis I (MI) and II (MII) errors were compared, statistically significant differences (p < 0.01) were found in the disomy classes and in both breeds, whereas the differences between diploidy classes were not significant. Compared to humans, a lower level of aneuploidy has been found in the domestic species analyzed so far. The present study contributes to the establishment of a baseline level of aneuploidy in the sperm populations of 2 cattle breeds which could be used for monitoring future trends of reproductive health, especially in relation to environmental changes and mutagens. Copyright © 2009 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2009

13. The 450-Band Resolution G- and R-Banded Standard Karyotype of the Donkey (Equus asinus, 2n = 62).

Author

Di Meo, G. P., Perucatti, A., Peretti, V., Incarnato, D., Ciotola, F., Liotta, L., Raudsepp, T., Di Berardino, D., Chowdhary, B., and Iannuzzi, L.

Subjects

DONKEYS, KARYOTYPES, CHROMOSOME banding, CHROMOSOME replication, LYMPHOCYTES, ACRIDINE, FLUORESCENCE microscopy, HETEROCHROMATIN

Abstract

Donkey chromosomes were earlier characterized separately by C-, G- and R-banding techniques. However, direct comparisons between G- and R-banding patterns have still not been carried out in this species. The present study reports this comparison at the 450-band level by using replication G- and R-banding patterns. Two sets of synchronized lymphocyte cultures were set up to obtain early (GBA+CBA-banding) and late (RBA-banding) BrdU incorporation. Slides were stained with acridine orange and observed under a fluorescence microscope. Reverse GBA+CBA- and RBA-banded karyotypes at the 450-band level were constructed. To verify G- and R-banding patterns in some acrocentric chromosomes, sequential GBA+CBA/Ag-NORs and RBA/Ag-NORs were also performed. The results of CBA-banding patterns obtained in 12 animals from 2 breeds showed a pronounced polymorphism of heterochromatin, especially in EAS1q-prox. Ideogrammatic representations of G- and R-banded karyotypes were constructed using only one common G- and R-banding nomenclature. In the present study both G- and R-banding patterns and relative ideograms are presented as standard karyotype for this species at the 450-band level. Copyright © 2009 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2009

14. Copy Number Variation of Testis-Specific Protein, Y-Encoded (TSPY) in 14 Different Breeds of Cattle (Bos taurus).

Author

Hamilton, C.K., Favetta, L.A., Di Meo, G.P., Floriot, S., Perucatti, A., Peippo, J., Kantanen, J., Eggen, A., Iannuzzi, L., and King, W.A.

Published

2009

15. FISH-mapping comparison between river buffalo chromosome 7 and sheep chromosome 6: assignment of new loci and comparison with HSA4.

Author

Perucatti, A., Di Meo, G. P., Goldammer, T., Incarnato, D., Nicolae, I., Brunner, R., and Iannuzzi, L.

Subjects

CHROMOSOMES, SHEEP, BISON, CYTOGENETICS, CYTOLOGY

Abstract

Synchronized peripheral blood lymphocytes from both river buffalo (BBU) and sheep (OAR) were treated for late incorporation of both BrdU and H-33258 to obtain R-banded preparations to be used for FISH-mapping. Ovine BAC-clones were hybridized for three days on slides pre-exposed to UV light after H-33258 staining. The following loci were mapped: GPR103 (BBU7q13, OAR6q13), TRAM1L1(OAR6q13dist), PPP3CA (BBU7q21, OAR6q15), SNCA (OAR6q17), PPARGC1A(BBU7q23, OAR6q17), UGDH (BBU7q25prox, OAR6q22prox), KDR (BBU7q27, OAR6q22), CNOT6L (BBU7q32prox, OAR6q32prox), NUP54 (BBU7q32, BBU6q32), DMP1 (BBU7q34dist-q36prox, OAR6q34dist-q36prox), QDPR (BBU7q36, OAR6q36). All loci mapped in homoeologous chromosomes and chromosome bands of the two species and their locations are in agreement with the previous RH-mapping performed on BBU7 with some difference in the distal region of BBU7. However, the present cytogenetic map better anchors the RH-map on specific river buffalo chromosome bands. In addition, eleven loci were assigned for the first time in sheep to OAR6, noticeably extending the cytogenetic map on this important chromosome which encodes caseins. Two loci (TRAM1L1 and SNCA) mapped in sheep were unmapped in river buffalo in three different FISH experiments. Comparisons between integrated cytogenetic maps of BBU7/OAR6 (and BTA6) with human chromosome 4 (HSA4) revealed complex chromosome rearrangements differentiating these chromosomes. Copyright © 2009 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2009

16. Cytogenetic screening of livestock populations in Europe: an overview.

Author

Ducos, A., Revay, T., Kovacs, A., Hidas, A., Pinton, A., Bonnet-Garnier, A., Molteni, L., Slota, E., Switonski, M., Arruga, M. V., van Haeringen, W. A., Nicolae, I., Chaves, R., Guedes-Pinto, H., Andersson, M., and Iannuzzi, L.

Subjects

CYTOGENETICS, ANIMAL species, CHROMOSOMAL rearrangement, ANIMAL populations, ANIMAL genome mapping, CYTOLOGY

Abstract

Clinical animal cytogenetics development began in the 1960’s, almost at the same time as human cytogenetics. However, the development of the two disciplines has been very different during the last four decades. Clinical animal cytogenetics reached its ‘Golden Age’ at the end of the 1980’s. The majority of the laboratories, as well as the main screening programs in farm animal species, presented in this review, were implemented during that period, under the guidance of some historical leaders, the first of whom was Ingemar Gustavsson. Over the past 40 years, hundreds of scientific publications reporting original chromosomal abnormalities generally associated with clinical disorders (mainly fertility impairment) have been published. Since the 1980’s, the number of scientists involved in clinical animal cytogenetics has drastically decreased for different reasons and the activities in that field are now concentrated in only a few laboratories (10 to 15, mainly in Europe), some of which have become highly specialized. Currently between 8,000 and 10,000 chromosomal analyses are carried out each year worldwide, mainly in cattle, pigs, and horses. About half of these analyses are performed in one French laboratory. Accurate estimates of the prevalence of chromosomal abnormalities in some populations are now available. For instance, one phenotypically normal pig in 200 controlled in France carries a structural chromosomal rearrangement. The frequency of the widespread 1;29 Robertsonian translocation in cattle has greatly decreased in most countries, but remains rather high in certain breeds (up to 20–25% in large beef cattle populations, even higher in some local breeds). The continuation, and in some instances the development of the chromosomal screening programs in farm animal populations allowed the implementation of new and original scientific projects, aimed at exploring some basic questions in the fields of chromosome and/or cell biology, thanks to easier access to interesting biological materials (germ cells, gametes, embryos ...). Copyright © 2008 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2008

17. Sex chromosome abnormalities and sterility in river buffalo.

Author

Di Meo, G. P., Perucatti, A., Di Palo, R., Iannuzzi, A., Ciotola, F., Peretti, V., Neglia, G., Campanile, G., Zicarelli, L., and Iannuzzi, L.

Subjects

SEX chromosomes, CHROMOSOME abnormalities, ABNORMALITIES in animals, WATER buffalo, ANIMAL morphology, CYTOGENETICS

Abstract

Thirteen male river buffaloes, 119 females with reproductive problems (which had reached reproductive age but had failed to become pregnant in the presence of bulls) and two male co-twins underwent both clinical and cytogenetic investigation. Clinical analyses performed by veterinary practitioners revealed normal body conformation and external genitalia for most females. However, some subjects showed some slight male traits such as large base horn circumference, prominent withers and tight pelvis. Rectal palpation revealed damage to internal sex adducts varying between atrophy of Mullerian ducts to complete lack of internal sex adducts (with closed vagina). All bulls had normal karyotypes at high resolution banding, while 25 animals (23 females and 2 male co-twins) (20.7%) with reproductive problems were found to carry the following sex chromosome abnormalities: X monosomy (2 females); X trisomy (1 female); sex reversal syndrome (2 females); and free-martinism (18 females and 2 males). All female carriers were sterile. Copyright © 2008 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2008

18. Clinical, cytogenetic and molecular evaluation in a dog with bilateral cryptorchidism and hypospadias.

Author

Cassata, R., Iannuzzi, A., Parma, P., De Lorenzi, L., Peretti, V., Perucatti, A., Iannuzzi, L., and Di Meo, G. P.

Subjects

CYTOGENETICS, CRYPTORCHISM, HYPOSPADIAS, DOG breeds, NUCLEOTIDES, DALMATIAN dog

Abstract

The aim of this study was to estimate prognostic factors in a Dalmatian dog with bilateral cryptorchidism and hypospadias. Cytogenetic and molecular analyses revealed a normal karyotype (2n = 78,XY) and the presence of SRY, INSL3 and RXFP2 genes with a normal DNA sequence for SRY and RXFP2, while the INSL3 sequence differed slightly from the normal one due to a heterozygous nucleotide change involving amino acid 22 of the INSL3 dog precursor protein. Levels of plasmatic testosterone were only 0.01 ng/ml, while FSH and LH serum levels were not detectable. After the human chorionic gonadotropin (hCG) test, the serum testosterone level was 0.01 ng/ml. Therefore, the phenotypic aetiology of this subject can not be well-defined because cryptorchidism and hypospadias were frequent clinical features with high genetic heterogeneity. Copyright © 2008 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2008

19. Chromosomal expression and localization of aphidicolin-induced fragile sites in the standard karyotype of river buffalo (Bubalus bubalis).

Author

Nicodemo, D., Coppola, G., Pauciullo, A., Cosenza, G., Ramunno, L., Ciotola, F., Peretti, V., Di Meo, G. P., Iannuzzi, L., Rubes, J., and Di Berardino, D.

Subjects

CHROMOSOMES, GENE expression, GENETIC mutation, WATER buffalo, GENE mapping, CYTOGENETICS

Abstract

The present study reports on the chromosomal expression and localization of aphidicolin-induced fragile sites in the standard karyotype of river buffalo (Bubalus bubalis, 2n = 50) with the aim of establishing a ‘fragile site map’ of the species. Totally, 400 aphidicolin-induced breakages were analyzed from eight young and clinically healthy animals, four males and four females; these breakages were localized in 106 RBG-negative chromosome bands or at the band-interband regions. The number of breakages per chromosome did not vary statistically ‘among’ the animals investigated but the differences among individual chromosomes were highly significant thus indicating that the chromosomal distribution of the breakages is not random and appears only partially related to chromosome length. Fragile sites were statistically determined as those chromosomal bands showing three or more breakages. In the river buffalo karyotype, 51 fragile sites were detected and localized on the standardized ideogram of the species. The most fragile bands were as follows: 9q213 with 24 breakages out of 400; 19q21 with 16, 17q21 and inacXq24 with 15, 15q23 with 13 and 13q23 with 12 breaks, respectively. Previous gene mapping analysis in this species has revealed that the closest loci to these fragile sites contain genes such as RASA1 and CAST (9q214), NPR3 and C9 (19q19), PLP and BTK (Xq24-q25), OarCP09 (15q24), and EDNRB (13q22) whose mutations are responsible for severe phenotypic malformations and immunodeficiency in humans as well as in mice and meat quality in pigs. Further cytogenetic and molecular studies are needed to fully exploit the biological significance of the fragile sites in karyotype evolution of domestic animals and their relationships with productive and reproductive efficiency of livestock. Copyright © 2008 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2008

20. Increased SCE levels in Mediterranean Italian buffaloes affected by limb malformation (transversal hemimelia).

Author

Peretti, V., Ciotola, F., Albarella, S., Restucci, B., Meomartino, L., Ferretti, L., Barbieri, V., and Iannuzzi, L.

Subjects

WATER buffalo, ABNORMALITIES in animals, ANATOMY, LEG amputation, EXTREMITIES (Anatomy), FARMS

Abstract

In recent years some buffalo farms in Campania have reported the birth of calves with limb malformation, especially with transversal hemimelia. We investigated 20 Mediterranean Italian buffaloes (8 males and 12 females) from one day to six months of age, of which 10 were affected by transversal hemimelia (group 1) and 10 were healthy controls (group 2). The following clinical and radiological patterns were observed in the malformed animals: hind limbs amputated, the right amputated off the second tarsus bones and the left amputated off the proximal epiphysis metatarsus, and the right thoracic limb hypoplasic (1 female); left hind limb amputated off the proximal epiphysis metatarsus (2 females and 1 male); left hind limb amputated off the third tarsus bones (1 female); left hind limb amputated off the tibia (1 female and 1 male); left hind limb amputated off the distal epiphysis metatarsus (1 female); left hind limb amputated off the first phalanx (1 male); right hind limb amputated off the proximal epiphysis metatarsus (1 male). In their malformed limbs all the animals presented more or less developed outlines of claws. The mean rate of SCE/cell in animals with transversal hemimelia was 8.80 ± 3.19, that of the controls 6.61 ± 2.73. The difference was statistically significant (P < 0.001). Copyright © 2008 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2008

21. XX/XY Chimerism in Cattle: Clinical and Cytogenetic Studies.

Author

Peretti, V., Ciotola, F., Albarella, S., Paciello, O., Dario, C., Barbieri, V., and Iannuzzi, L.

Published

2008

22. A new case of reciprocal translocation in a young bull: rcp(11;21)(q28;q12).

Author

Molteni, L., Perucatti, A., Iannuzzi, A., Di Meo, G. P., De Lorenzi, L., De Giovanni, A., Incarnato, D., Succi, G., Cribiu, E., Eggen, A., and Iannuzzi, L.

Subjects

CHROMOSOMES, MAMMAL reproduction, BULLS, CHIANA cattle, TESTIS

Abstract

Routine cytogenetic investigations of the Chianina cattle (BTA) breed revealed the presence of longer and smaller chromosomes than the largest (BTA1) and smallest (BTA29) chromosomes in the cells of a young, normal-looking bull used for reproduction. Application of both RBA-banding and Ag-NOR techniques, as well as the use of the FISH technique and specific molecular markers of both BTA11 (IL1B, ASS and LGB) and BTA21 (SERPINA and D21S45) established that these two abnormal chromosomes were the product of a reciprocal translocation between BTA11 and BTA21. Both der(11) and der(21) were C-band positive and the chromosome regions affected were rcp(11;21)(q28;q12). The young bull had a normal body conformation, including external genitalia, normal levels of testosterone (as in the control) and non-detectable levels of both 17 beta-estradiol and progesterone (as in the control). The animal never showed libido in the presence of both males and females in oestrus. After slaughter at 18 months, histological evaluation revealed normal organized testes, seminiferous tubules and epididymis but with poor proliferative germ cells consisting mainly of spermatogonia, middle pachytene spermatocytes and early spermatids with late spermatids and spermatozoa being very rare. Copyright © 2007 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2007

23. Cytogenetic characterization of alpaca (Lama pacos, fam. Camelidae) prometaphase chromosomes.

Author

Di Berardino, D., Nicodemo, D., Coppola, G., King, A. W., Ramunno, L., Cosenza, G. F., Iannuzzi, L., Di Meo, G. P., Balmus, G., and Rubes, J.

Subjects

ALPACA, CYTOGENETICS, GENE mapping, KARYOTYPES, COMPARATIVE studies, CAMELIDAE

Abstract

The present study provides specific cytogenetic information on prometaphase chromosomes of the alpaca (Lama pacos, fam. Camelidae, 2n = 74) that forms a basis for future work on karyotype standardization and gene mapping of the species, as well as for comparative studies and future genetic improvement programs within the family Camelidae. Based on the centromeric index (CI) measurements, alpaca chromosomes have been classified into four groups: group A, subtelocentrics, from pair 1 to 10; group B, telocentrics, from pair 11 to 20; group C, submetacentrics, from pair 21 to 29; group D, metacentrics, from pair 30 to 36 plus sex chromosomes. For each chromosome pair, the following data are provided: relative chromosome length, centromeric index, conventional Giemsa staining, sequential QFQ/C-banding, GTG- and RBG-banding patterns with corresponding ideograms, RBA-banding and sequential RBA/silver staining for NOR localization. The overall number of RBG-bands revealed was 391. Nucleolus organizer-bearing chromosomes were identified as pairs 6, 28, 31, 32, 33 and 34. Comparative ZOO-FISH analysis with camel (Camelus dromedarius) X and Y painting probes was also carried out to validate X-Y chromosome identification of alpaca and to confirm close homologies between the sex chromosomes of these two species. Copyright © 2006 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2006

24. Equine FISH mapping of 36 genes known to locate on human chromosome ends.

Author

Perrocheau, M., Boutreux, V., Chadi-Taourit, S., Di Meo, G. P., Perucatti, A., Incarnato, D., Cribiu, E. P., Guérin, G., and Iannuzzi, L.

Subjects

BACTERIAL artificial chromosomes, DNA probes, HUMAN chromosomes, FLUORESCENCE in situ hybridization, GENES, CYTOGENETICS, GENOMES

Abstract

The INRA and the CHORI-241 horse BAC libraries were screened by hybridization with DNA probes and/or directly by PCR with primers designed in consensus sequences of genes localized at the end of each human chromosome. BAC clones were retrieved and 36 could be FISH mapped after the expected gene was confirmed in each BAC by sequencing. Our results show that 16 BACs can be considered to be at telomeric or centromeric positions in the horse and 15 were found at the boundary of actually defined conserved segments even-though often located within conserved syntenic fragments between horse and human. There is no straightforward relation between the end position of a marker in human and its end position in the horse. A gene was first anchored to ECA27 by FISH mapping. The localization of these markers expands the cytogenetic map of the horse and will serve as anchors for the integrated and future physical maps. It should also help to better understand the different chromosomal rearrangements that occurred during evolution of genomes derived from a common ancestral karyotype. Copyright © 2005 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2005

25. Freemartinism in river buffalo: clinical and cytogenetic observations.

Author

Iannuzzi, L., Di Meo, G. P., Perucatti, A., Ciotola, F., Incarnato, D., Di Palo, R., Peretti, V., Campanile, G., and Zicarelli, L.

Subjects

*FEMALES, *PHENOTYPES, *REPRODUCTION, *BIOLOGY, *VAGINA, *FEMALE reproductive organs

Abstract

During the last five years forty phenotypic female river buffalos with reproductive problems and two phenotypic male co-twins of females, raised in the provinces of Caserta and Salerno (southern Italy) underwent cytogenetic investigation. Of the 42 animals studied, 10 freemartins (8 females and 2 males) were found with variable percentages of male and female blood cells, the majority however showing similar percentages of both. Of the eight females, six showed normal body conformation, vagina and clitoris, while two showed some male traits (tight pelvis). The two males were apparently normal with only a reduced size of one testicle in one animal. Clinical observations performed in the internal reproductive organs of the female carriers by both rectal palpation (5 females) and direct observation after mating (3 females) revealed serious damages varying from complete lack of internal sex adducts (closed vagina) to hypoplasia of Müllerian ducts and absence (or atrophy) of ovaries. All freemartin females were sterile. To our knowledge, this is the first detailed description of freemartinism in river buffalo by combining clinical and cytogenetic analyses. Copyright © 2005 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2005

26. Chromosomal localization of sixty autosomal loci in sheep (Ovis aries , 2n = 54) by fluorescence in situ hybridization and R-banding.

Author

Iannuzzi, L., Perucatti, A., Schibler, L., Incarnatoa, D., Di Meo, G. P., and Cribiu, E. P.

Subjects

*FLUORESCENCE in situ hybridization, *CHROMOSOMES, *KARYOTYPES, *GENETICS, *CYTOGENETICS, *LIVESTOCK, *SHEEP as laboratory animals, *FISH as laboratory animals

Abstract

Sixty autosomal loci (5 type I and 55 type II) from 24 bovine syntenic groups, and previously FISH-mapped to goat and river buffalo chromosomes, were localized by fluorescence in situ on sheep (Ovis aries , 2n = 54) chromosomes, thereby notably extending the cytogenetic map of this economically important species. Caprine BAC clones were hybridized to R-banded chromosome preparations. FITC-signals and RBPI- banding (R-banding by late BrdU-incorporation and propidium iodide staining) were simultaneously visualized and captured by a colour CCD-camera. All mapped loci were localized on homoeologous chromosomes and chromosome regions (bands) of sheep, goat and river buffalo, further supporting chromosome and genetic (loci) homoeologies among bovids. Copyright © 2003 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2003

27. The river buffalo (Bubalus bubalis , 2n = 50) cytogenetic map: assignment of 64 loci by fluorescence in situ hybridization and R-banding.

Author

Iannuzzi, L., Di Meo, G. P., Perucatti, A., Schibler, L., Incarnato, D., Gallagher, D., Eggen, A., Ferretti, L., Cribiu, E. P., and Womack, J.

Subjects

*WATER buffalo, *CYTOGENETICS, *ANIMAL genome mapping, *FLUORESCENCE in situ hybridization, *ANIMAL genetics

Abstract

Sixty-four genomic BAC-clones mapping five type I (ADCYAP1, HRH1, IL3, RBP3B and SRY) and 59 type II loci, previously FISH-mapped to goat (63 loci) and cattle (SRY) chromosomes, were fluorescence in situ mapped to river buffalo R-banded chromosomes, noticeably extending the physical map of this species. All mapped loci from 26 bovine syntenic groups were located on homeologous chromosomes and chromosome regions of river buffalo and goat (cattle) chromosomes, confirming the high degree of chromosome homeologies among bovids. Furthermore, an improved cytogenetic map of the river buffalo with 293 loci from all 31 bovine syntenic groups is reported. Copyright © 2003 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2003

28. A pericentric inversion in the cattle Y chromosome.

Author

Iannuzzi, L., Di Meo, G.P., Perucatti, A., Eggen, A., Incarnato, D., Sarubbi, F., and Cribiu, E.

Subjects

*CATTLE, *Y chromosome, *SEX chromosomes, *GENETICS, *SPECIES hybridization, *GENE mapping

Abstract

Sixteen male Podolian cattle, two sires and their 14 male offspring, were investigated cytogenetically on the basis of a female-like phenotype found in one of them. Eleven male offspring, including the one with female traits, and one of the two sires were found to carry an abnormal Y chromosome which originated from a pericentric inversion of the proximal half of the Yq arm (Yq11→q12.2), as demonstrated by both banding and FISH mapping techniques with Y-specific molecular markers. Copyright © 2002 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2001

29. A new balanced autosomal reciprocal translocation in cattle revealed by banding techniques and human-painting probes.

Author

Iannuzzi, L., Moiteni, L., Di Meo, G.P., Perucatti, A., Lorenzi, L., Incarnato, D., De Giovanni, A., Succi, G., and Gustavsson, I.

Subjects

*CHROMOSOME banding, *GENETICS, *CHROMOSOME analysis, *GENE mapping, *SPECIES hybridization, *FERTILITY

Abstract

Three hundred and twenty-two (264 males and 58 females), randomly sampled Grey Alpine cattle individuals from Northeastern Italy, were investigated cytogenetically by both conventional chromosome staining and R-banding. Two hundred and eighty-one (87%) individuals had a normal karyotype and 41 (13%) carried chromosomal aberrations such as (a) rob(1;29) in two individuals, (b) rob(26;29) in 36 individuals, (c) XX/XY-chimerism in two individuals, and (d) an abnormally long chromosome in one individual. All these aberrations except (d) have been described before. GBG-, RBG-, CBA-banding and sequential GBG/CBA- and RBG/CBA-banding techniques revealed that the abnormally long chromosome was the result of a reciprocal translocation between chromosomes 1 (q21→qter) and 5 (q11→q33), as confirmed also by chromosome painting with human chromosome 3 and 12 probes. The dam of the carrier bull carried the same translocation, while the grandam showed a normal karyotype. Since the sire of the dam was not available for study, no conclusion about the origin of the chromosome translocation could be drawn. The carrier bull was eliminated because of poor fertility. The dam had three other calves, which all were chromosomally normal. On average the dam had to be served 2.5 times (breed average was 1.2) to be in calf. Copyright © 2002 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2001

30. Comparative FISH mapping in river buffalo and sheep chromosomes: assignment of forty autosomal type I loci from sixteen human chromosomes.

Author

Iannuzzi, L., Di Meo, G. P., Perucatti, A., Schibier, L., Incarnato, D., and Cribiu, E. P.

Subjects

*HUMAN chromosomes, *CYTOGENETICS, *GOAT breeds, *BOVIDAE, *GENOMES, *ARTIODACTYLA

Abstract

Forty autosomal type I loci earlier mapped in goat were comparatively FISH mapped on river buffalo (BBU) and sheep (OAR) chromosomes, noticeably extending the physical map in these two economically important bovids. All loci map on homoeologous chromosomes and chromosome bands, with the exception of COL9A1 mapping on BBU10 (homoeologous to cattle/goat chromosome 9) and OAR9 (homoeologous to cattle/goat chromosome 14). A FISH mapping control with COL9A1 on both cattle and goat chromosomes gave the same results as those obtained in river buffalo and sheep, respectively. Direct G- and R-banding comparisons between Bovinae (cattle and river buffalo) and Caprinae (sheep and goat) chromosomes 9 and 14 confirmed that a simple translocation of a small pericentromeric region occurred between the two chromosomes. Comparisons between physical maps obtained in river buffalo and sheep with those reported in sixteen human chromosomes revealed complex chromosome rearrangements (mainly translocations and inversions) differentiating bovids (Artiodactyls) from humans (Primates). Copyright © 2001 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2001

31. International System for Chromosome Nomenclature of Domestic Bovids (ISCNDB 2000).

Author

Cribiu, E. P., di Berardino, D., di Meo, G. P., Eggen, A., Gallagher, D. S., Gustavsson, I., Hayes, H., Iannuzzi, L., Popescu, C. P., Rubes, J., Schmutz, S., Stranzinger, G., Vaiman, A., and Womack, J.

Subjects

DOMESTIC animal genetics, KARYOTYPES, PLOIDY, CHROMOSOME banding, BIOMARKERS

Abstract

This article provides information about international system for chromosome nomenclature of domestic bovids. The first conference which established standard karyotypes in domestic animals was held in Reading (1976). The use of R-banding techniques and of prometaphase preparations led to organizing the second international conference. In new chromosome nomenclature, standard karyotypes were proposed for cattle, sheep and goat, and a common chromosome nomenclature system includes the river buffalo standard karyotype also. The eleven standard karyotypes with G- and R-banded ideograms, the molecular markers assigned to each chromosome with the relative chromosome homeologies among the four bovid species were presented in this new nomenclature.

Published

2001

32. Thirteen type I loci from HSA4q, HSA6p, HSA7q and HSA12q were comparatively FISH-mapped in four river buffalo and sheep chromosomes.

Author

Di Meo, G.P., Perucatti, A., Schibler, L., Incarnato, D., Ferrara, L., Cribiu, E.P., and Iannuzzi, L.

Published

2000

33. Thirteen type I loci from HSA4q, HSA6p, HSA7q and HSA12q were comparatively FISH-mapped in four river buffalo and sheep chromosomes.

Author

Meo, G.P. Di, Perucatti, A., Schibier, L., Incarnato, D., Ferrara, L., Cribiu, E.P., and Iannuzzi, L.

Subjects

HUMAN chromosomes, CLONING, SHEEP, CHROMOSOMES, GENES, GENETICS

Abstract

Thirteen goat BAC clones containing coding sequences from HSA7, HSA12q, HSA4 and HSA6p were fluorescence in situ mapped to river buffalo (Bubalus bubalis, BBU) and sheep (Ovis aries, OAR) R-banded chromosomes. The following type I loci were mapped: BCP to BBU8q32 and OAR4q32, CLCN1 to BBU8q34 and OAR4q34, IGFBP3 to BBU8q24 and OAR4q27, KRT to BBU4q21 and OAR 3q21, IFNG to BBU4q23 and OAR3q23, IGF1 to BBU4q31 and OAR3q31, GNRHR to BBU7q32 and OAR6q32, MTP to BBU7q21 and OAR6q15, PDE6B to BBU7q36 and OAR6q36, BF to BBU2p22 and OAR20q22, EDN1 to BBU2p24 and OAR20q24, GSTA1 to BBU2p22 and OAR20q22, OLADRB (MHC) to BBU2p22 and OAR20q22. All mapped loci appeared to be located on homologous chromosomes and chromosome bands in both bovids. Comparison between gene orders in bovid (BBU and OAR) and human (HSA) chromosomes revealed complex rearrangements, especially between BBU7/OAR6 and HSA4, as well as between BBU2p/OAR20 and HSA6p. Copyright © 2000 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2000

34. Comparative FISH mapping of bovid X chromosomes reveals homologies and divergences between the subfamilies Bovinae and Caprinae.

Author

Iannuzzi, L., Di Meo, G.P., Perucatti, A., Incarnato, D., Schibler, L., and Cribiu, E.P.

Published

2000

35. ZOO-FISH and R-banding reveal extensive conservation of human chromosome regions in euchromatic regions of river buffalo chromosomes.

Author

Iannuzzi, L., Di Meo, G.P., Perucatti, A., and Bardaro, T.

Published

1998

36. Chromosomal localization of omega and trophoblast interferon genes in cattle and river buffalo by sequential R-banding and fluorescent in situ hybridization.

Author

Iannuzzi, L., Gallagher, D.S., Ryan, A.M., Di Meo, G.P., and Womack, J.E.

Published

1993

37. A new Robertsonian translocation in cattle, rob(15;25).

Author

Iannuzzi, L., Rangel-Figueiredo, T., Di Meo, G.P., and Ferrara, L.

Published

1992

38. Banding studies and synaptonemal complex analysis of an X-autosome translocation in the domestic pig.

Author

Gustavsson, I., Switoński, M., Iannuzzi, L., Plöen, L., and Larsson, K.

Published

1989

39. Frequency and distribution of rob(1;29) in eight Portuguese cattle breeds.

Author

Iannuzzi, A., Di Meo, G. P., Jambrenghi, A. Caputi, Vonghia, G., Iannuzzi, L., and Rangel-Figueiredo, T.

Subjects

CYTOGENETICS, CATTLE breeds, CATTLE breeding, CHROMOSOMES, CHROMOSOME abnormalities, GENETIC mutation

Abstract

Cytogenetic investigations performed in eight Portuguese cattle breeds revealed the presence of rob(1;29) in both heterozygous and homozygous conditions in all, and five breeds, respectively, with variable percentages of carriers as follows: 41.0% in Arouquesa, 69.9% in Barrosa, 39.4% in Maronesa, 2.8% in Mirandesa, 8.5% in Marinhoa, 1.8% in Mertolenga, 21.3% in Raca Brava and 21.5% in Alentejana. CBA- and RBA-banding were performed to ascertain the chromosomes involved in the chromosome abnormality. A total of 1,626 animals were investigated. Reproductive parameters (number of calves per 100 cows) were higher in Mirandesa (80%) when compared with both Maronesa (75%) and Barrosa (70%) breeds, underlining that rob(1;29) reduces fertility in the carriers. Copyright © 2008 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2008

40. Comparative FISH-mapping of twelve loci in river buffalo and sheep chromosomes: comparison with HSA8p and HSA4q.

Author

Perucatti, A., Di Meo, G. P., Goldammer, T., Incarnato, D., Brunner, R., and Iannuzzi, L.

Subjects

CYTOGENETICS, CHROMOSOMES, WATER buffalo, SHEEP, LIVESTOCK, KARYOKINESIS

Abstract

Twelve loci (11 of type I and 1 of type II) previously FISH-mapped in cattle were comparatively FISH-mapped in both river buffalo chromosome 1p (BBU1p) and homologous chromosome 26 of sheep (OAR26), extending the cytogenetic maps in both chromosome species and providing a more precise localization of these loci in single chromosome bands than previous locations on BTA27. Bovine BAC clones containing DCTD, C4orf20, CASP3, TLR3, MSR1, FAT, LONRF1, DLC1, C8orf41, CSSM036, LSM1 and EIF4EBP1 were used for FISH on RBPI-banded chromosomes. All loci were located on the same homologous chromosome bands (R-band positive) of both species further confirming the high degree of banding and gene (order of loci) homologies among bovids. Detailed cytogenetic maps of OAR26 and BBU1p were performed and compared with that of BTA27 as well as with those of both HSA8p and HSA4q, revealing complex chromosome rearrangements differentiating OAR26/BBU1p/BTA27 from human chromosomes. Copyright © 2008 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2008

41. FISH-mapping of LEP and SLC26A2 genes in sheep, goat and cattle R-banded chromosomes: comparison between bovine, ovine and caprine chromosome 4 (BTA4/OAR4/CHI4) and human chromosome 7 (HSA7).

Author

Perucatti, A., Di Meo, G. P., Vallinoto, M., Kierstein, G., M. P. C.Schneider, Incarnato, D., Jambrenghi, A. Caputi, Mohammadi, G., Vonghia, G., Silva, A., Brenig, B., and Iannuzzi, L.

Subjects

GENE mapping, ANIMAL genome mapping, LEPTIN, HUMAN chromosomes, CYTOGENETICS, CHROMOSOME analysis, GENOMICS

Abstract

Sheep (OAR), goat (CHI) and cattle (BTA) R-banded chromosome preparations, obtained from synchronized cell cultures, were used to FISH-map leptin (LEP) and solute carrier family 26 member 2 (SLC26A2) genes on single chromosome bands. LEP maps on OAR4q32 and CHI4q32, being the first assignment of this gene to these two species. SLC26A2 maps on BTA7q24, OAR5q24 and CHI7q24. This gene, too, was assigned for the fist time to both sheep and goat chromosomes, while it was more precisely localized on a single chromosome band in cattle. Improved cytogenetic maps of BTA4/OAR4/CHI4 were constructed and compared with HSA7 revealing five main conserved segments and complex chromosome rearrangements, including a centromere repositioning, differentiating HSA7 and BTA4/OAR4/CHI4. Copyright © 2006 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2006

42. Comparative FISH mapping of mucin 1, transmembrane (MUC1) among cattle, river buffalo, sheep and goat chromosomes: comparison between bovine chromosome 3 and human chromosome 1.

Author

Perucatti, A., Floriot, S., Di Meo, G. P., Soglia, D., Rullo, R., Maione, S., Incarnato, D., Eggen, A., Sacchi, P., Rasero, R., and Iannuzzi, L.

Subjects

ANIMAL genome mapping, MUCINS, MUCOPROTEINS, CYTOGENETICS, ANIMAL genetics techniques, GENE mapping, GENETIC techniques

Abstract

Four bovine BAC clones (0494F01, 0069D07, 0060B06, and 0306A12) containing MUC1, as confirmed by mapping MUC1 on a RH3000 radiation hybrid panel, were hybridised on R-banded chromosomes of cattle (BTA), river buffalo (BBU), sheep (OAR) and goat (CHI). MUC1 was FISH-mapped on BTA3q13, BBU6q13, OAR1p13 and CHI3q13 and both chromosomes and chromosome bands were homoeologous confirming the high degree of chromosome homoeologies among bovids and adding more information on the pericentromeric regions of these species’ chromosomes. Indeed, MUC1 was more precisely assigned to BTA3 and assigned for the first time to BBU6, OAR1p and CHI3. Moreover, detailed and improved cytogenetic maps of BTA3, CHI3, OAR1p and BBU6 are shown and compared with HSA1. Copyright © 2006 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2006

43. Comparative FISH-mapping of the survival of motor neuron gene (SMN) in domestic bovids.

Author

Iannuzzi, L., Di Meo, G. P., Perucatti, A., Rullo, R., Incarnato, D., Longeri, M., Bongioni, G., Molteni, L., Galli, A., Zanotti, M., and Eggen, A.

Subjects

*CATTLE genetics, *ANIMAL genome mapping, *MOTOR neurons, *FLUORESCENCE in situ hybridization, *GENES, *ARTHROGRYPOSIS, *CATTLE genome mapping

Abstract

A comparative fluorescence in situ mapping of the SMN gene was performed on R-banded chromosome preparations of cattle (Bos taurus , BTA, 2n = 60), river buffalo (Bubalus bubalis , BBU, 2n = 50), sheep (Ovis aries , OAR, 2n = 54) and goat (Capra hircus , CHI, 2n = 60), as well as on those of a calf from Piedmont breed affected by arthrogryposis. SMN was located on BTA20q13.1, OAR16q13.1, CHI20q13.1 and BBU19q13. These chromosomes and chromosome bands are believed to be homeologous, confirming the high degree of chromosome homeologies among bovids. The position of SMN was refined in cattle, compared to the two previous localizations, while it is a new gene assignment in the other three bovids. A comparative fiber-FISH performed on extended chromatin of both normal cattle and calf affected by arthrogryposis revealed more extended FITC signals in the calf, compared to the normal cattle (control), suggesting a possible duplication of the SMN gene in the calf affected by arthrogryposis. Copyright © 2003 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2003

44. A case of azoospermia in a bull carrying a Y-autosome reciprocal translocation.

Author

Iannuzzi, L., Molteni, L., Di Meo, G. P., de Giovanni, A., Perucatti, A., Succi, G., Incarnato, D., Eggen, A., and Cribiu, E. P.

Subjects

*CHROMOSOMAL translocation, *Y chromosome, *GENE mapping, *INFERTILITY, *CHIANA cattle, *FLUORESCENCE in situ hybridization

Abstract

During normal cytogenetic investigations on the Chianina cattle (BTA) breed, a normal looking young bull was found to carry an abnormal Y chromosome which was a product of a reciprocal translocation between chromosomes Y and 9. This was revealed by both CBA- and RBG-banding techniques and was clearly confirmed by FISH-mapping analysis with IDVGA50 (which paints the complete Yq arm in a normal Y), as well as with AMD1, CGA, IGF2R (mapping to BTA9q16, BTA9q22 and BTA9q27→q28, respectively) and SRY (mapping to normal BTAYq23). Analysis on sperm from four different samples revealed azoospermia in the carrier, indicating that the rcp(Y;9) induces sterility in the bull. Copyright © 2002 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2001

45. Twelve loci from HSA10, HSA11 and HSA20 were comparatively FISH-mapped on river buffalo and sheep chromosomes.

Author

Iannuzzi, L., Gallagher, D. S., Di Meo, G. P., Schlapfer, J., Perucatti, A., Amarante, M. R. V., Incarnato, D., Davis, S. K., Taylor, J. F., and Womack, J. E.

Subjects

*GENETICS, *CHROMOSOMES, *GENES, *SPECIES hybridization, *LIVESTOCK, *ANIMAL genome mapping

Abstract

Ten type I loci from HSA10 (IL2RA and VIM), HSA11 (HBB and FSHB) and HSA20 (THBD, AVP/OXT, GNAS1, HCK and TOP1) and two domestic cattle type II loci (CSSM30 and BL42) were FISH mapped to R-banded river buffalo (BBU) and sheep (OAR) chromosomes. IL2RA (HSA10) maps on BBU14q13 and OAR13q13, VIM (HSA10) maps on BBU14q15 and OAR13q15, HBB (HSA11) maps on BBU16q25 and OAR15q23, FSHB (HSA11) maps on BBU16q28 and OAR15q26, THBD (HSA20) maps on BBU14q15 and OAR13q15 while AVP/OXT, GNAS1, HCK, and TOP1 (HSA20) as well as CSSM30 and BL42 map on the same large band of BBU14q22 and OAR13q22. All loci were mapped on the same homologous chromosomes and chromosome bands of the two species, and these results agree with those earlier reported in cattle homologous chromosomes 15 and 13, respectively, confirming the high degree of both banding and physical map similarities among the bovid species. Indirect comparisons between physical maps achieved on bovid chromosomes and those reported on HSA10, HSA11 and HSA20 were performed. Copyright © 2001 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2001

46. Comparative FISH-mapping of six expressed gene loci to river buffalo and sheep chromosomes.

Author

Iannuzzi, L., Gallagher Jr., D.S., Di Meo, G.P., Yang, Y., Womack, J.E., Davis, S.K., and Taylor, J.F.

Published

1999

47. Comparative FISH-mapping of the prion protein gene (PRNP) on cattle, river buffalo, sheep and goat chromosomes.

Author

Iannuzzi, L., Palomba, R., Di Meo, G.P., Perucatti, A., and Ferrara, L.

Published

1998

48. Assignment of solute carrier family 26 (sulfate transporter), member 2 (SLC26a2) to river buffalo (Bubalus bubalis , 2n = 50) chromosome 9q26 (BBU9q26) by fluorescence in situ hybridization and R-banding.

Author

Brenig, B., Kierstein, G., Iannuzzi, L., Silva, A., Schneider, M. P., and Baumgartner, B. G.

Subjects

DIASTROPHIC dwarfism, CHROMOSOME banding, FLUORESCENCE in situ hybridization, WATER buffalo

Abstract

Reports on assignment of solute carrier family 26 (sulfate transporter), member 2 (SLC26a2) to river buffalo (Bubalus bubalis, 2n = 50) chromosome 9q26 (BBU9q26) by fluorescence in situ hybridization and R-banding. Investigation of possible cause of a bone dysplasic phenotype in a Brazilian water buffalo population; Association of SLC26a2 gene with diastrophic dysplasia (DTD)in humans; Presentation of methods and materials and results.

Published

2003