Abstract As little is known about the blood profile of camels in libya, this article is the second of a 4-part series describing the biochemical and haematological blood profile in Libyan camels. In Part 1 of these manuscripts, the overall blood biochemical and haematological mean values of camels in Libya were determined, parts 2-4 evaluates the effects of breed, gender and age respectively on these values. Blood samples were collected from three camel breeds, namely, Fakhreya, Sirtaweya and Mahari, and the levels of enzymes, metabolites, electrolytes and haematological indices were measured. The blood of the Sirtaweya breed showed (i) higher levels of aspartate aminotransferase (AST), albumin and Phosphorus (Ph), than the other two breeds, (ii) higher levels of lactate dehydrogenase (LDH), amylase (AMS) and total proteins than the Fakhreya breed and (iii) higher levels of glucose, triglycerides, total cholesterol, Very Low Density Lipoprotein (VLDL), Low Density Lipoprotein (LDL), Calcium (Ca), Packed Cell volume (PCV), Mean Corpuscular Volume (MCV) and Albumin/Globulin (A/G) ratio than the Mahari breed. The Fakhreya breed had (i) higher levels of urea, Iron (Fe), Haemoglobin (Hb), Mean Corpuscular Haemoglobin (MCH) and neutrophils number than the other two breeds, (ii) higher levels of glucose, A/G, LDL, Ca, PCV, MCV and monocytes number than the Mahari breed and (iii) higher levels of erythrocyte osmotic fragility, MCH and Mean Corpuscular Hemoglobin Concentration (MCHC) than the Sirtaweya breed. The Mahari breed had (i) higher levels of globulin than the other two breeds, (ii) higher levels of AMS than the Fakhreya breed and (iii) higher levels of erythrocyte osmotic fragility, Erythrocyte Sedimentation Rate (ESR), MCHC than the Sirtaweya breed. The tested blood parameters in the three Libyan breeds in this study were affected by breed variations. arabic 28 English 143
Anwar Mustafa Abdalhadi Abdalmula, F. A. Alnagar, Amal Omar Elarif Buker, Fathia mahmoud Mohammad Ashour, I. M. Abograra , Mansur Ennuri Moftah Shmela(10-2018)

Carpal conformation is thought to contribute to the frequency of carpal pathology so non-invasive measurement of carpal morphometry would be useful to identify joints at risk. However, there are scant radiographic morphometrical details for the carpals of Thoroughbred (TB) and Standardbred (SB) racehorses even though these breeds differ in the incidence of carpal damage. This study aimed to identify morphometrical similarities and differences in carpal conformation in TB and SB. Thirty carpal dorsopalmar radiographs (DP) were collected from 15 TB and 15 SB. All DP radiographs were at zero degrees or within the acceptable range of rotation. Twelve carpal radiographic parameters were selected and measured on each radiograph. Statistical analysis found significant differences in four carpal parameters. These parameters revealed that the middle carpal joint in SB was significantly more angled distomedially whereas the radial distal metaphysis showed a greater distolateral inclination in TB. The radiocarpal and the carpometacarpal articulations exhibited common features in the two groups of horses. These carpal traits in TB and SB highlight their potential association with loading distribution and pathology. Measuring carpi from untrained and injured horses is necessary to establish breed specific features for the ideal carpal conformation in each of these breeds.
Aiman Hussein Saleh Oheida, Abdulrhman Mohamed Salah Alrtib, Aiman Abdulghader Salim Shalgum, Mansur Ennuri Moftah Shmela, Mohamed A Marzok, Helen M S Davies(4-2019)

The human 11p15 region is divided into two independent imprinted domains, the H19/IGF2 and CDKN1C/KCNQ1 domains. Each domain is regulated by its own imprinting control regions, ICR1 and ICR2, which carry opposite germline imprints. The expression of 11p15 imprinted genes is regulated by two major mechanisms. ICR1 binds a zinc finger protein (CTCF) on the unmethylated maternal allele and acts as a chromatin insulator, whereas ICR2 is unmethylated on the paternal allele and serves as a promoter for a regulatory non-coding RNA (KCNQ1OT1). Dysregulation of 11p15 genomic imprinting results in two human foetal growth disorders: the Beckwith-Wiedemann (BWS) and the Silver-Russell (SRS) syndromes, which display opposite growth phenotypes. Various 11p15 epigenetic and genetic defects result in BWS and SRS. Gain or loss of DNA methylation account for 60% of BWS and SRS and, in most cases, the mechanism of the DNA methylation defect is unknown. The overall aim of this thesis was to decipher the mechanisms resulting in loss or gain of DNA methylation at ICR1 or ICR2 by investigating large cohorts of BWS and SRS patients displaying a “primary” DNA methylation defect. We aimed at establishing what was the incidence of copy number variations (CNVs) (duplications, deletions and segmental uniparental isodisomies) confined to one or one part of the H19/IGF2 or CDKN1C/KCNQ1 domains. We also screened extensively the ICR1 imprinting control region in BWS and SRS patients to identify new genetic defects. We show in this work that genetic defects in cis account for a significant proportion (approximately 30%) of BWS patients with ICR1 gain of DNA methylation but are rare in SRS and BWS patients with loss of DNA methylation at ICR1 and ICR2, respectively. We describe novel small gain and loss CNVs involving only part of the two domains in BWS and SRS. We also describe, for the first time, mutations and small deletions involving binding sites for the OCT4 and SOX2 pluripotency factors. Those defects account for approximately 14% of BWS cases and result in a BWS phenotype upon maternal transmission. We further characterize the role of OCT4/SOX2 pluripotency factors in the maintenance of genomic imprinting at the H19/IGF2 domain in mouse embryonic stem cells. By screening the whole 11p15 region for susceptibility alleles for loss or gain of DNA methylation, our group identified a novel 4.5 kb cis-regulatory region within the CDKN1C/KCNQ1 domain. A specific 4.5 kb haplotype confers, upon maternal transmission, a risk of ICR2 loss of DNA methylation in BWS patients. This study investigated the mechanism involved in the risk of ICR2 loss of DNA methylation in BWS and showed that within this 4.5 kb region, two SNPs (rs11823023 and rs179436) affect CTCF occupancy at DNA motifs flanking the CTCF 20 bp core motifs. This study identifies a new cis-regulatory region and highlights the crucial role of CTCF for the regulation of genomic imprinting at the CDKN1C/KCNQ1 domain. These recent findings bring new insights in the regulation of genomic imprinting at both the IGF2/H19 and CDKN1C/KCNQ1 domains. arabic 8 English 50
Mansur Ennuri Moftah Shmela(9-2014)