Effect of adding blue-green algae, probiotic and antibiotic to the diet on the productive performance of common carp Cyprinus carpio L.

This current study aimed to study the effect of adding blue-green algae (Spirulina), symbiotic (poultry star®me) at a ratio of 1 to 2% and colistin antibiotic to the control diet of common carp fish reared in glass aquariums for 56 days terms of three replicates for each treatment. The growth results showed that the fish fed on the third diet was significantly superior to the fish fed on the other experimental diets in the rate of total and daily weight gain, feed conversion ratio, feeding efficiency ratio and protein efficiency ratio criteria over all other experimental diets except for the second diet, 1% spirulina. The fish fed on the second diet significantly outperformed in the precipitated protein criterion and the protein productive value of all the experimental diets under study. The value of crude protein in the edible portion increased significantly when fish were fed on spirulina, symbiotic and antibiotic diets, compared to the control diet, while the percentage of fats in the fish fed on diets containing the food additives under test decreased significantly compared to the control diet. No significant differences were recorded in the percentage of ash. It is evident from what was mentioned above that the best results of the studied criteria were when adding spirulina at had positive effects on growth criteria and food utilization

Virulence Factors in Streptococcus pneumonia and the Role of Complement C1q in the Immune Response

المكورات العقدية الرئوية Streptococcus pneumonia  هي بكتيريا إيجابية الغرام , تستعمر في الأسطح المخاطية من البلعوم الأنفي تعتبر من مسببات الأمراض الرئيسية لدى البشر, من الأمراض التي تسببها هي الالتهاب الرئوي والتهاب السحايا. تنتج هذه البكتريا العديد من عوامل الضراوة التي تشارك في ميكانيكيه الإصابة, ان المعركة بين المضيف البشري والممرض الجرثومي معقدة للغاية  اذ يحاول كل طرف التفوق على الآخر من أجل البقاء.  الجهاز المناعي الذاتي في الأنسان وخاصة نظام المتمم  complement system يعتبر خط الدفاع الأول ضد مسببات الأمراض الغازية. بصورة عامة تمتلك الممرضات عدد من الاستراتيجيات لمواجهة نظام المتمم  من أجل البقاء والاستمرار داخل المضيف, وأحد هذه المُمْرِضات هو المكورات الرئوية Streptococcus pneumonia التي تمتلك العديد من عوامل الضراوة تساعدها في أحداث الإصابة داخل جسم المضيف, مثل قابلية المكورات الرئوية على الالتصاق adhesions , تكوين المستعمرات  colonize, التي تعتبر العوامل الأساسية في أحداث الإصابة. تناقش هذه المراجعة الفعاليات البيولوجية ضد عوامل الضراوة للمكورات الرئوية, وتوضح الدور الرئيسي لجزيئة المتمم الأولى (( C1q التي تنشط ضد الإصابة خلال المسلك الكلاسيكي للمتمم .  Streptococcus pneumonia is a major pathogen in humans, and causes diseases such as pneumonia and meningitis. This bacterium produces many virulence factors that participate in the mechanics of injury. The battle between human host and bacterial pathogen is extremely complex. Each side tries to outpace the other in the race for survival. Particularly in the innate immune system in humans, the complementary immune system acts as the first line of defense against invading pathogens during the course of evolution, however, the pathogen has developed multiple strategies to counter the host complement system and colonization, for survival and sustainability within the host. One of these pathogens is Streptococcus (pneumococcus), which are Gram-positive bacterial pathogens that often coexist in the human respiratory system. Depending on the host's sensitivity, pneumococcus can transform into an infectious agent that spreads within the human host and causes diseases ranging from mild to severe and potentially life-threatening diseases. This transition from the symbiont to the infectious agent is a very complex process and an understanding of this mechanism is essential in controlling pneumococcal disease. Using its complex arsenal of weapons such as surface adhesions as well as pneumococcal recruitment recruit the host's immune system. This review discusses the biological activity of several pneumococcal virulence agents and describes C1q, the first subunit of the classic complement pathway, and its role in antimicrobial reactions, as pneumococcus exploits C1q as a molecular bridge that facilitates the attachment of this bacterium to the cell surfaces of the host

Evaluation of Different Methods of Curing Bacterial Plasmids

تلعب البلازميدات دورا مهما في انتشار صفة مقاومة المضادات الحيوية بين السلالات البكترية والتي تشكل تهديدا  على الصحة العالمية. لذا اقتضت الضرورة ايجاد طرق ناجعة و كفيلة للحد من انتقال البلازميدات. تعتمد الطرق التقليدية لازالة البلازميد على تنمية السلالات البكترية في ظل ظروف غير ملائمة ، مثل ارتفاع درجة الحرارة أو إضافة عوامل أقحام تتداخل مع بنية تركيب الدنا اثناء تكرار البلازميد. هنالك أساليب أخرى تعتمد على ظاهرة عدم توافق البلازميد القائمة على مبدأ التنافس بين البلازميدات المتطابقة ولكنها تتطلب معرفة دقيقة بآلية تضاعف البلازميد المستهدف ، بالإضافة إلى المعالجة اللاحقة للبلازميد المسبب للتداخل . مع ظهور تقنية كريسبركاس9 التي هي محاكاة الدفاع البكتيري الطبيعي ضد المتسللين من البلازميد والعاثي، تم استثمار هذه التقنية لتكون اداه دقيقة لاستهداف اماكن متخصصة في الحمض النووي البلازميدي. في هذه المراجعة سنتناول اهم طرق الازالة والحذف للبلازميدات من الخلايا البكتيرية.Plasmids play an important role in the spread of antibiotic resistance among bacterial strains that pose a threat to global health. Traditional methods of curing plasmid rely on the development of bacterial strains under inappropriate conditions, such as high temperature or the addition of intruding agents that interfere with the structure of DNA synthesis during the replication of plasmids. Other methods rely on the phenomenon of plasmid compatibility based on the principle of competition between identical plasmids but require accurate knowledge of the mechanism of multiplying the target plasmid, in addition to the subsequent treatment of the interfering plasmid. With the advent of Crispras9, which simulates natural bacterial defense against plasmid and latex infiltrators, this technique has been used as an accurate tool for targeting places specializing in plasmid DNA. In this review, we will address the most important methods of removing and deleting plasmids from bacterial cells

Seroprevalence study of IgG and IgM Antibodies to Toxoplasma, Rubella, Cytomegalovirus, Chlamydia trachomatis and Herpes simplex II in Pregnancy women in Babylon Province

In this work 180 blood samples was collected from pregnant women in Babylon province, Babylon maternity and children hospital from October/2008 to April/2009. It revealed that TORCH infections was; Cytomegalovirus formed (CMV) 57.2% followed by Toxoplasma gondii 55.5% Rubella 53.9%, Herpes simplex II 28.9% and Chlamydia trachomatis 24.4%. Seroprevalence of Toxoplasma, Rubella, CMV, Chlamydia trachomatis and Herpes IgM Antibodies according to various obstetric losses showed that Abortions happened in all causes with high percentage (Over than 30%) except Herpes infections (less than 6%), while congenital anomalies and premature delivery formed high ratio with some different in some cases. Neonatal deaths are very low under 1% except in CMV infections which formed 4.9%. Distribution of age with type of infection according IgM Antibodies to Toxoplasma, Rubella, CMV, Chlamydia trachomatis and Herpes simplex revealed that major age group for infection was between <20 to 40 years which formed more than two third of all infection cases. Residential distribution with type of infection according IgM Antibodies shows that most infection occurred in rural area (over than 50% in all agents) except in Herpes simplex infections which formed 82.7% in urban area. TORCH (Toxoplasma gondii, Rubella, Cytomegalovirus and Herpes simplex) infections with incidence of abortion in pregnant women in this study revealed that First trimester was the highest ratio of infection than other two trimesters

Employing Sisko non-Newtonian model to investigate the thermal behavior of blood flow in a stenosis artery: Effects of heat flux, different severities of stenosis, and different radii of the artery

In this paper, a numerical investigation is carried out to study the blood flow behavior within the stenosis artery. An artery is under applying a constant heat flux on the boundary walls in this simulation. Lumen model is employed for simulation of the artery and the Sisko model is used to indicate properties of blood as non-Newtonian fluid. Also, the cone geometry of stenosis with different severities and radii are simulated. Then, effects of heat flux, different severities of stenosis, and different radii of the artery are studied on the blood flow behavior. It is reported that before stenosis, velocity is increasing and heat transfer rate is also increasing which cause temperature to be decreased in stenosis position. But after stenosis, velocity is decreased. Consequently, heat transfer rate is decreased which leads to reduction in blood temperature. Also, since the blood particles adhere to the arterial wall, with increasing radial distance from the walls, velocity is increased, which causes maximum velocity to be found in the central region. Moreover, the thermal driving force is damped in the lateral region of the artery and does not affect velocity. On the other side, as the severity increases step by step, the temperature decreases, respectively. In fact, the cross-sectional area decreases with increasing severity of stenosis. Consequently, velocity increases and causes heat transfer enhancement, which leads to a reduction in blood temperature. Therefore, the highest temperatures are related to the artery with an intensity of 20%. Although the cross-section area of the artery can change blood temperature, but its role can be ignorable in temperature enhancement and body healthy in this regard