Carpenter Krarup (attackclover15)

RNA polymerase II (Pol II) transcribes hundreds of thousands of transcription units - a reaction always brought to a close by its termination. Because Pol II transcribes multiple gene types, its termination occurs in a variety of ways, with the polymerase being responsive to different inputs. Moreover, it is not just a default process occurring at the end of genes. Promoter-proximal and premature termination is common and might in turn regulate gene expression levels. Although some transcription termination mechanisms have been debated for decades, research is only just underway on emergent processes. We provide an updated view of transcription termination in human cells, highlighting common themes and some interesting differences between the contexts in which it occurs.There is considerable public and scientific interest in the origin, spread, and evolution of SARS-CoV-2. Lu et al. recently conducted genomic sequencing and analysis of SARS-CoV-2 in Guangdong, revealing its early transmission out of Hubei and shedding light on the effectiveness of controlling local transmission chains.Ethnic differences in blood group frequencies might result in clinically important mismatches for transfusions. Arab people represent a large population for which no comprehensive database of red cell genotypes is available and Kuwaitis are no exception. For instance, the Rh blood group is the most elaborate blood group system that shows a high degree of polymorphism among different ethnic groups, there has been little classification of RH alleles in Arab people. Blood samples from 917 Kuwaiti Arab donors in the Kuwaiti Bone Marrow registry were tested with a single-nucleotide polymorphism DNA array. Blood group antigen prevalence were compared to known prevalence in European populations. Multiple subjects were found to be antigen negative for certain phenotypes that is considered rare by the American Rare Donor Program; (Fy(a-,b-) and Kell). In the minor blood group antigens, the FYA allele was predicted to be low in Kuwaitis, when compared to other published accounts. The frequencies of MNS blood antigens in the study population were not significantly different from those reported for European/Caucasian populations. The predicted frequency of the Diego blood group antigen was similar to that observed in a South Asian population. The weak D 1, 2, 3 phenotypes were not prevalent in the Kuwaiti Arab population; however, other RHD variants were detected. We provided information about blood group antigens in the Kuwaiti population that is important for guiding transfusion care. Several interesting findings demonstrated clinical importance, which could be useful in developing transfusion medicine policies and approaches.Acquired haemophilia A (AHA) is a rare disorder with mostly idiopathic aetiology that leads to factor VIII (FVIII) deficiency due to coagulation inhibitors formation. Treatment protocol includes immunosuppression and Factor VIII bypassing agents including activated Prothrombin Complex Concentrates (PCC). Nevertheless, the role of plasma exchange is not clear in the treatment of AHA. We report a case of 73 year old male who presented with haematuria, prolonged activated partial thromboplastin time (APTT) and a very high titres of Factor VIII inhibitors of 98 Bethesda units (BU) and was diagnosed with acquired haemophilia A. He failed to respond to multiple immunosuppressive therapies including rituximab. Therefore, therapeutic plasma exchange (TPE) therapy was planned due to persistence of haematuria despite immunosuppressive therapies. After five cycles of plasma exchange, APTT became normal, haematuria subsided and Factor VIII inhibitors became negative. Patient was discharged without any bleeding and in a stable condition. In this index case, plasma exchange played a very crucial role, resulting in recovery of the patient. These results advocate that therapeutic plasma exchange is an effective therapy for acquired haemophilia A.Ob