TBX3-Mutationsanalysen und Konstruktion einer Zelllinie für TBX2-Inhibitorscreenings

Die nahe verwandten T-box Transkriptionsfaktoren TBX2 und TBX3 werden in zahlreichen humanen Krebsarten überexprimiert, insbesondere in Brustkrebs und Melanomen. Die Überexpression von TBX2 und TBX3 hat verschiedene zelluläre Effekte, darunter die Unterdrückung der Seneszenz, die Förderung der Epithelialen-Mesenchymalen Transition sowie invasive Zellmotilität. Im Gegensatz dazu führt ein Funktionsverlust von TBX3 und der meisten anderen humanen T-box-Gene zu haploinsuffizienten Entwicklungsdefekten. Durch Sequenzierung des Exoms von Brustkrebsproben identifizierten Stephens et al. fünf verschiedene Mutationen in TBX3, welche allesamt die DNA-bindende T-box-Domäne betrafen. Die In-Frame-Deletion N212delN wurde zweimal gefunden. Aus der Anhäufung der Mutationen innerhalb der T-box-Domäne wurde geschlossen, dass TBX3 bei Brustkrebs ein Treibergen ist. Da Mutationen innerhalb der T-box-Domäne im Allgemeinen zu einem Funktionsverlust führen, aber die onkogene Aktivität von TBX3 meist auf eine Überexpression zurückzuführen ist, wurden die potentiellen Treibermutationen hinsichtlich einer verminderten oder gesteigerten TBX3-Funktion geprüft. Getestet wurden zwei In-Frame Deletionen, eine Missense- sowie eine Frameshift-Mutante bezüglich der DNA-Bindung in vitro und der Zielgen-Repression in Zellkultur. Zusätzlich wurde eine in silico Analyse der im The Cancer Genome Atlas (TCGA) gelisteten somatischen TBX-Brustkrebsmutationen durchgeführt. Sowohl die experimentelle als auch die in silico Analyse zeigten, dass die untersuchten Mutationen vorwiegend zum Verlust der TBX3-Funktion führen. Um den Mechanismus der Genrepression durch TBX3 besser zu verstehen, wurden weitere TBX3-Mutanten bezüglich ihrer Wirkung auf die p21-Promotoraktivität (p21-Luc-Reporter und endogene p21-Expression) analysiert. Wildtypische p21-Luc-Repression zeigten die zwei Mutationen S674A (Phosphorylierung) und D275K (SUMOylierung), welche posttranslationale Modifikationen verhindern, sowie die Interaktion mit dem Tumorsuppressor Rb1 unterbindende M302A/V304A-Mutation. Erstaunlicherweise war die endogene p21-Repression dieser Mutanten stärker als die des wildtypischen TBX3-Proteins. Alle drei Mutationen führten zu einer Stabilisierung des TBX3-Proteins. Die ursprünglich in Patienten mit Ulna-Mamma Syndrom identifizierte, DNA-bindungsdefekte Y149S-Mutante konnte weder p21-Luc noch endogenes p21 reprimieren. Mutationen in potentiellen Interaktionsdomänen für die Bindung der Co-Repressoren Groucho und C-terminalem Bindeprotein zeigten sowohl auf p21-Luc als auch auf endogenes p21-Gen wildtypische Repressoraktivität, so dass diese Co-Repressoren in COS-7-Zellen wahrscheinlich nicht an der Repression dieses Gens beteiligt sind. Da TBX2 und TBX3 interessante Ziele zur direkten Krebsbekämpfung darstellen, sollte ein zelluläres Reportersystem zur Identifikation TBX2-inhibierender, pharmakologisch aktiver Substanzen etabliert werden. Dazu sollte eine stabile Zelllinie mit vom p21-Promotor reguliertem d2EGFP-Reporter und Doxyzyklin-induzierbarem TBX2-Protein erzeugt werden, da ektopische Expression von TBX2 genetische Instabilität und Toxizität induzieren kann. In dieser Zelllinie sollte die TBX2-Expression zur Reduktion der d2EGFP-Fluoreszenz führen. Zur Erzeugung der Zelllinie wurden die folgenden drei Konstrukte Schritt-für-Schritt stabil in das Genom der Zielzelllinie COS-7 integriert: pEF1alpha-Tet3G, pTRE3G-TBX2 und p21-d2EGFP. Während die Herstellung der doppelt stabilen COS-7-Zelllinie gelang, scheiterte die Herstellung der dreifach stabilen Zelllinie.

Funktionelle Analyse der onkologisch relevanten Protease Threonin-Aspartase 1

Krebs stellt eine der häufigsten Todesursachen in Europa dar. Grundlage für eine langfristige Verbesserung des Behandlungserfolgs ist ein molekulares Verständnis der Mechanismen, welche zur Krankheitsentstehung beitragen. In diesem Zusammenhang spielen Proteasen nicht nur eine wichtige Rolle, sondern stellen auch bei vielerlei Erkrankungen bereits anerkannte Zielstrukturen derzeitiger Behandlungsstrategien dar. Die Protease Threonin Aspartase 1 (Taspase1) spielt eine entscheidende Rolle bei der Aktivierung von Mixed Lineage Leukemia (MLL)-Fusionsproteinen und somit bei der Entstehung aggressiver Leukämien. Aktuelle Arbeiten unterstreichen zudem die onkologische Relevanz von Taspase1 auch für solide Tumore. Die Kenntnisse über die molekularen Mechanismen und Signalnetzwerke, welche für die (patho)biologischen Funktionen von Taspase1 verantwortlich sind, stellen sich allerdings noch immer als bruchstückhaft dar. Um diese bestehenden Wissenslücken zu schließen, sollten im Rahmen der Arbeit neue Strategien zur Inhibition von Taspase1 erarbeitet und bewertet werden. Zusätzlich sollten neue Einsichten in evolutionären Funktionsmechanismen sowie eine weitergehende Feinregulation von Taspase1 erlangt werden. Zum einen erlaubte die Etablierung und Anwendung eines zellbasierten Taspase1-Testsystem, chemische Verbindungen auf deren inhibitorische Aktivität zu testen. Überraschenderweise belegten solch zelluläre Analysen in Kombination mit in silico-Modellierungen eindeutig, dass ein in der Literatur postulierter Inhibitor in lebenden Tumorzellen keine spezifische Wirksamkeit gegenüber Taspase1 zeigte. Als mögliche Alternative wurden darüber hinaus Ansätze zur genetischen Inhibition evaluiert. Obwohl publizierte Studien Taspase1 als ααββ-Heterodimer beschreiben, konnte durch Überexpression katalytisch inaktiver Mutanten kein trans-dominant negativer Effekt und damit auch keine Inhibition des wildtypischen Enzyms beobachtet werden. Weiterführende zellbiologische und biochemische Analysen belegten erstmalig, dass Taspase1 in lebenden Zellen in der Tat hauptsächlich als Monomer und nicht als Dimer vorliegt. Die Identifizierung evolutionär konservierter bzw. divergenter Funktionsmechanismen lieferte bereits in der Vergangenheit wichtige Hinweise zur Inhibition verschiedenster krebsrelevanter Proteine. Da in Drosophila melanogaster die Existenz und funktionelle Konservierung eines Taspase1-Homologs postuliert wurde, wurde in einem weiteren Teil der vorliegenden Arbeit die evolutionäre Entwicklung der Drosophila Taspase1 (dTaspase1) untersucht. Obwohl Taspase1 als eine evolutionär stark konservierte Protease gilt, konnten wichtige Unterschiede zwischen beiden Orthologen festgestellt werden. Neben einem konservierten autokatalytischen Aktivierungsmechanismus besitzt dTaspase1 verglichen mit dem humanen Enzym eine flexiblere Substraterkennungs-sequenz, was zu einer Vergrößerung des Drosophila-spezifischen Degradoms führt. Diese Ergebnisse zeigen des Weiteren, dass zur Definition und Vorhersage des Degradoms nicht nur proteomische sondern auch zellbiologische und bioinformatische Untersuchungen geeignet und notwendig sind. Interessanterweise ist die differentielle Regulation der dTaspase1-Aktivität zudem auf eine veränderte intrazelluläre Lokalisation zurückzuführen. Das Fehlen von in Vertebraten hochkonservierten aktiven Kernimport- und nukleolären Lokalisationssignalen erklärt, weshalb dTaspase1 weniger effizient nukleäre Substrate prozessiert. Somit scheint die für die humane Taspase1 beschriebene Regulation von Lokalisation und Aktivität über eine Importin-α/NPM1-Achse erst im Laufe der Entwicklung der Vertebraten entstanden zu sein. Es konnte also ein bislang unbekanntes evolutionäres Prinzip identifiziert werden, über welches eine Protease einen Transport- bzw. Lokalisations-basierten Mechanismus zur Feinregulation ihrer Aktivität „von der Fliege zum Menschen“ nutzt. Eine weitere Möglichkeit zur dynamischen Funktionsmodulation bieten post-translationale Modifikationen (PTMs) der Proteinsequenz, zu welcher Phosphorylierung und Acetylierung zählen. Interessanterweise konnte für die humane Taspase1 über den Einsatz unabhängiger Methoden einschließlich massenspektrometrischer Analysen eine Acetylierung durch verschiedene Histon-Acetyltransferasen (HATs) nachgewiesen werden. Diese Modifikation erfolgt reversibel, wobei vor allem die Histon-Deacetylase HDAC1 durch Interaktion mit Taspase1 die Deacetylierung der Protease katalysiert. Während Taspase1 in ihrer aktiven Konformation acetyliert vorliegt, kommt es nach Deacetylierung zu einer Reduktion ihrer enzymatischen Aktivität. Somit scheint die Modulation der Taspase1-Aktivität nicht allein über intra-proteolytische Autoaktivierung, Transport- und Interaktionsmechanismen, sondern zudem durch post-translationale Modifikationen gesteuert zu werden. Zusammenfassend konnten im Rahmen dieser Arbeit entscheidende neue Einblicke in die (patho)biologische Funktion und Feinregulation der Taspase1 gewonnen werden. Diese Ergebnisse stellen nicht nur einen wichtigen Schritt in Richtung eines verbesserten Verständnis der „Taspase1-Biologie“, sondern auch zur erfolgreichen Inhibition und Bewertung der krebsrelevanten Funktion dieser Protease dar.

Studio del network metabolico umano: modelli e applicazioni.

Il lavoro di tesi si basa sull'analisi del database pubblico ReconX, il quale costituisce lo stato dell'arte della ricostruzione in silico del metabolismo umano. Il modello che se ne può estrarre è stato impiegato per simulazioni di metabolismo cellulare in condizioni di ossigeno variabile, valutando l'impatto della carenza di ossigeno sulle reazioni e su i pathways metabolici. Le tecniche impiegate appartengono alla systems biology e sono di tipo bioinformatico e riguardano flux balance analysis e flux variability analysis. I risultati trovati vengono quindi confrontati con la letteratura di settore. E' stato inoltre possibile estrarre dei sotto network dal modello principale, analizzando la rete di connessioni esistente fra i metaboliti e fra le reazioni separatamente. Viene estratto e studiato anche il network di interazione fra pathways, su cui è introdotta una misura ad hoc per valutare la forza di connessione fra i vari processi. Su quest'ultimo network viene anche effettuata un'analisi di tipo stocastico, mostrando che tecniche di tipo markoviano possono essere applicate per indagini diverse da quelle più in uso basate sui flussi. Infine viene mostrata una possibile soluzione per visualizzare graficamente i network metabolici così costituiti.

Modelli matematici di cardiomiociti derivanti da cellule staminali: una nuova formulazione per riprodurre gli effetti proaritmici del blocco della corrente di potassio

I cardiomiociti derivanti da cellule staminali pluripotenti indotte (hiPSC-CMs) costituiscono un nuovo approccio per lo studio delle proprietà delle cellule cardiache sia degli individui sani che di quelli affetti da malattie ereditarie e possono rappresentare inoltre una piattaforma in vitro per la scoperta di nuovi farmaci e terapie rigenerative. Il grande impatto delle hiPSC-CMs nell’ambito della ricerca si deve soprattutto alle loro proprietà elettrofisiologiche: queste cellule non solo esprimono fenotipi genici e proprietà delle correnti ioniche tipiche delle cellule cardiache, ma sono anche in grado di riprodurre fenomeni aritmici, come le EAD, a seguito della somministrazione di farmaci. Grazie anche alla grande potenza di calcolo oggi disponibile è possibile supportare la pratica in vitro con modelli in silico, abbattendo sia i costi che i tempi richiesti dagli esperimenti in laboratorio. Lo scopo di questo lavoro è quello di simulare il comportamento delle hiPSC-CMs di tipo ventricolare in risposta alla somministrazione di farmaci che interagiscono con la corrente di potassio IKr, principale responsabile della ripolarizzazione cardiaca. L’assunzione di certi farmaci può comportare infatti una riduzione della IKr, con conseguente prolungamento della fase di ripolarizzazione del potenziale d’azione cardiaco. Questo meccanismo è causa dell’insorgenza della sindrome del QT lungo di tipo 2, che in casi estremi può degenerare in aritmie gravi. Ciò suggerisce che queste cellule rappresentano un importante strumento per la valutazione del rischio pro-aritmico che può essere facilitata da simulazioni in silico effettuate utilizzando modelli computazionali basati su dati fisiologici.

Modellazione matematica delle dinamiche di rilevamento dell'espressione del gene N-MYC mediante un sensore biomolecolare sintetico

L'espressione del gene MYCN è un importante indicatore della severità del NBL. Poiché il numero di copie di MYCN è un indice grezzo della sua espressione quantificarle utilizzando tecniche come la “fluorescent in situ hybridization” (FISH) può servire a formulare una stima del livello di espressione MYCN [Shapiro 1993]. Tuttavia, l'espressione aberrante di MYCN nel NBL non è sempre associata all'amplificazione genica; pertanto la valutazione diretta del livello di espressione di questo gene sarebbe un miglior indicatore prognostico. Questa tesi è stata sviluppata nell'ambito di un progetto che si propone di realizzare un sensore biomolecolare sintetico per l'identificazione del livello di espressione di MYCN. Di seguito saranno presentati i dettagli relativi alla progettazione della topologia circuitale e all’analisi in silico che sono state condotte per caratterizzare il comportamento dinamico del sistema. Questo lavoro è stato svolto nel laboratorio di Ingegneria Cellulare e Molecolare "S. Cavalcanti", presso la Sede di Cesena del Dipartimento di Ingegneria dell'Energia elettrica e dell'Informazione "Guglielmo Marconi" (DEI) dell’Ateneo di Bologna.

Biomechanical model of tumor growth: application to the European ContraCancrum project

This abstract presents the biomechanical model that is used in the European ContraCancrum project, aiming at simulating tumor evolution in the brain and lung. The construction of the finite element model as well as a simulation of tumor growth are shown. The construction of the mesh is fully automatic and is therefore compatible with a clinical application. This biomechanical model will be later combined to a cellular level simulator also developed in the project.

Atomistic simulations of 2D bicomponent self-assembly: from molecular recognition to self-healing

Supramolecular two-dimensional engineering epitomizes the design of complex molecular architectures through recognition events in multicomponent self-assembly. Despite being the subject of in-depth experimental studies, such articulated phenomena have not been yet elucidated in time and space with atomic precision. Here we use atomistic molecular dynamics to simulate the recognition of complementary hydrogen-bonding modules forming 2D porous networks on graphite. We describe the transition path from the melt to the crystalline hexagonal phase and show that self-assembly proceeds through a series of intermediate states featuring a plethora of polygonal types. Finally, we design a novel bicomponent system possessing kinetically improved self-healing ability in silico, thus demonstrating that a priori engineering of 2D self-assembly is possible.

Genome-wide meta-analysis increases to 71 the number of confirmed Crohn's disease susceptibility loci

We undertook a meta-analysis of six Crohn's disease genome-wide association studies (GWAS) comprising 6,333 affected individuals (cases) and 15,056 controls and followed up the top association signals in 15,694 cases, 14,026 controls and 414 parent-offspring trios. We identified 30 new susceptibility loci meeting genome-wide significance (P < 5 × 10 ? ? ). A series of in silico analyses highlighted particular genes within these loci and, together with manual curation, implicated functionally interesting candidate genes including SMAD3, ERAP2, IL10, IL2RA, TYK2, FUT2, DNMT3A, DENND1B, BACH2 and TAGAP. Combined with previously confirmed loci, these results identify 71 distinct loci with genome-wide significant evidence for association with Crohn's disease.

An insulin infusion advisory system based on autotuning nonlinear model-predictive control

This paper aims at the development and evaluation of a personalized insulin infusion advisory system (IIAS), able to provide real-time estimations of the appropriate insulin infusion rate for type 1 diabetes mellitus (T1DM) patients using continuous glucose monitors and insulin pumps. The system is based on a nonlinear model-predictive controller (NMPC) that uses a personalized glucose-insulin metabolism model, consisting of two compartmental models and a recurrent neural network. The model takes as input patient's information regarding meal intake, glucose measurements, and insulin infusion rates, and provides glucose predictions. The predictions are fed to the NMPC, in order for the latter to estimate the optimum insulin infusion rates. An algorithm based on fuzzy logic has been developed for the on-line adaptation of the NMPC control parameters. The IIAS has been in silico evaluated using an appropriate simulation environment (UVa T1DM simulator). The IIAS was able to handle various meal profiles, fasting conditions, interpatient variability, intraday variation in physiological parameters, and errors in meal amount estimations.

Susceptibility of Aethina tumida (Coleoptera: Nitidulidae) Larvae and Pupae to Entomopathogenic Nematodes

In this study, we evaluated the potential use of entomopathogenic nematodes as a control for the beetle Aethina tumida Murray (Coleoptera: Nitidulidae). In particular, we conducted 1) four screening bioassays to determine nematode (seven species, 10 total strains tested) and application level effects on A. tumida larvae and pupae, 2) a generational persistence bioassay to determine whether single inoculations with nematodes would control multiple generations of A. tumida larvae in treated soil, and 3) a field bioassay to determine whether the nematodes would remain efficacious in the field. In the screening bioassays, nematode efficacy varied significantly by tested nematode and the infective juvenile (IJ) level at which they were applied. Although nematode virulence was moderate in screening bioassays 1-3 (0 - 68% A. tumida mortality), A. tumida mortality approached higher levels in screening bioassay 4 (nearly 100% after 39 d) that suggest suitable applicability of some of the test nematodes as field controls for A. tumida. In the generational persistence bioassay, Steinernema Hobrave Cabanillas, Poinar & Raulston 7-12 strain and Heterorhabditis indica Poinar, Karunaka & David provided adequate A. tumida control for 19 wk after a single soil inoculation (76-94% mortality in A. tumida pupae). In the field bioassay, the same two nematode species also showed high virulence toward pupating A. tumida (88-100%) mortality. Our data suggest that nematode use may be an integral component of an integrated pest management scheme aimed at reducing A. tumida populations in bee colonies to tolerable levels.

Block of the hERG channel by bupivacaine: Electrophysiological and modeling insights towards stereochemical optimization

The hERG voltage-gated potassium channel mediates the cardiac I(Kr) current, which is crucial for the duration of the cardiac action potential. Undesired block of the channel by certain drugs may prolong the QT interval and increase the risk of malignant ventricular arrhythmias. Although the molecular determinants of hERG block have been intensively studied, not much is known about its stereoselectivity. Levo-(S)-bupivacaine was the first drug reported to have a higher affinity to block hERG than its enantiomer. This study strives to understand the principles underlying the stereoselectivity of bupivacaine block with the help of mutagenesis analyses and molecular modeling simulations. Electrophysiological measurements of mutated hERG channels allowed for the identification of residues involved in bupivacaine binding and stereoselectivity. Docking and molecular mechanics simulations for both enantiomers of bupivacaine and terfenadine (a non-stereoselective blocker) were performed inside an open-state model of the hERG channel. The predicted binding modes enabled a clear depiction of ligand-protein interactions. Estimated binding affinities for both enantiomers were consistent with electrophysiological measurements. A similar computational procedure was applied to bupivacaine enantiomers towards two mutated hERG channels (Tyr652Ala and Phe656Ala). This study confirmed, at the molecular level, that bupivacaine stereoselectively binds the hERG channel. These results help to lay the foundation for structural guidelines to optimize the cardiotoxic profile of drug candidates in silico.

The NutriChip project--translating technology into nutritional knowledge

Advances in food transformation have dramatically increased the diversity of products on the market and, consequently, exposed consumers to a complex spectrum of bioactive nutrients whose potential risks and benefits have mostly not been confidently demonstrated. Therefore, tools are needed to efficiently screen products for selected physiological properties before they enter the market. NutriChip is an interdisciplinary modular project funded by the Swiss programme Nano-Tera, which groups scientists from several areas of research with the aim of developing analytical strategies that will enable functional screening of foods. The project focuses on postprandial inflammatory stress, which potentially contributes to the development of chronic inflammatory diseases. The first module of the NutriChip project is composed of three in vitro biochemical steps that mimic the digestion process, intestinal absorption, and subsequent modulation of immune cells by the bioavailable nutrients. The second module is a miniaturised form of the first module (gut-on-a-chip) that integrates a microfluidic-based cell co-culture system and super-resolution imaging technologies to provide a physiologically relevant fluid flow environment and allows sensitive real-time analysis of the products screened in vitro. The third module aims at validating the in vitro screening model by assessing the nutritional properties of selected food products in humans. Because of the immunomodulatory properties of milk as well as its amenability to technological transformation, dairy products have been selected as model foods. The NutriChip project reflects the opening of food and nutrition sciences to state-of-the-art technologies, a key step in the translation of transdisciplinary knowledge into nutritional advice.

Age-modulated association between prefrontal NAA and the BDNF gene

Brain-derived neurotrophic factor (BDNF) has been implicated in the pathophysiology of psychiatric and neurological disorders and in the mechanisms of antidepressant pharmacotherapy. Psychiatric and neurological conditions have also been associated with reduced brain levels of N-acetyl-aspartate (NAA), which has been used as a putative marker of neural integrity. However, few studies have explored the relationship between BDNF polymorphisms and NAA levels directly. Here, we present data from a single-voxel proton magnetic resonance spectroscopy study of 64 individuals and explore the relationship between BDNF polymorphisms and prefrontal NAA level. Our results indicate an association between a single nucleotide polymorphism (SNP) within BDNF, known as rs1519480, and reduced NAA level (p = 0.023). NAA levels were further predicted by age and Asian ancestry. There was a significant rs1519480 × age interaction on NAA level (p = 0.031). Specifically, the effect of rs1519480 on NAA level became significant at age ⩾34.17 yr. NAA level decreased with advancing age for genotype TT (p = 0.001) but not for genotype CT (p = 0.82) or CC (p = 0.34). Additional in silico analysis of 142 post-mortem brain samples revealed an association between the same SNP and reduced BDNF mRNA expression in the prefrontal cortex. The rs1519480 SNP influences BDNF mRNA expression and has an impact on prefrontal NAA level over time. This genetic mechanism may contribute to inter-individual variation in cognitive performance seen during normal ageing, as well as contributing to the risk for developing psychiatric and neurological conditions.

A human-horse comparative map based on equine BAC end sequences

In an effort to increase the density of sequence-based markers for the horse genome we generated 9473 BAC end sequences (BESs) from the CHORI-241 BAC library with an average read length of 677 bp. BLASTN searches with the BESs revealed 4036 meaningful hits (E in the human genome that provide useful markers for the human-horse comparative map. The 4036 BLASTN hits allowed the anchoring of 3079 BAC clones to the human genome, on average one corresponding equine BAC clone per megabase of human DNA. We used the BLASTN anchored BESs for an in silico prediction of the gene content and chromosome assignment of comparatively mapped equine BAC clones. As a first verification of our in silico mapping strategy we placed 19 equine BESs with matches to HSA6 onto the RH map. All markers were assigned to the predicted localizations on ECA10, ECA20, and ECA31, respectively.

A radiation hybrid map of sheep chromosome 23 based on ovine BAC-end sequences

More than 375,000 BAC-end sequences (BES) of the CHORI-243 ovine BAC library have been deposited in public databases. blastn searches with these BES against HSA18 revealed 1806 unique and significant hits. We used blastn-anchored BES for an in silico prediction of gene content and chromosome assignment of comparatively mapped ovine BAC clones. Ovine BES were selected at approximately 1.3-Mb intervals of HSA18 and incorporated into a human-sheep comparative map. An ovine 5000-rad whole-genome radiation hybrid panel (USUoRH5000) was typed with 70 markers, all of which mapped to OAR23. The resulting OAR23 RH map included 43 markers derived from BES with high and unique BLAST hits to the sequence of the orthologous HSA18, nine EST-derived markers, 16 microsatellite markers taken from the ovine linkage map and two bovine microsatellite markers. Six new microsatellite markers derived from the 43 mapped BES and the two bovine microsatellite markers were linkage-mapped using the International Mapping Flock (IMF). Thirteen additional microsatellite markers were derived from other ovine BES with high and unique BLAST hits to the sequence of the orthologous HSA18 and also positioned on the ovine linkage map but not incorporated into the OAR23 RH map. This resulted in 24 markers in common and in the same order between the RH and linkage maps. Eight of the BES-derived markers were mapped using fluorescent in situ hybridization (FISH), to thereby align the RH and cytogenetic maps. Comparison of the ovine chromosome 23 RH map with the HSA18 map identified and localized three major breakpoints between HSA18 and OAR23. The positions of these breakpoints were equivalent to those previously shown for syntenic BTA24 and HSA18. This study presents evidence for the usefulness of ovine BES when constructing a high-resolution comprehensive map for a single sheep chromosome. The comparative analysis confirms and refines knowledge about chromosomal conservation and rearrangements between sheep, cattle and human. The constructed RH map demonstrates the resolution and utility of the newly constructed ovine RH panel.