Two Novel Mutations in NKX 2.5 Gene Un‑translated Regions in Congenital Heart Diseases Patients from Pakistan.

Introduction: Congenital heart diseases (CHD) are one of the neglected and challenging areas in undeveloped countries. In Pakistan approximately 40-50,000 children are affected annually. A majority of these patients belongs to rural areas where properly medical facilities are out of reach. In the etiology of these diseases genetic profile, consanguinity and other factors should be examined carefully. The current study aims to check the genetic manipulations in patients for the NKX 2.5 gene specifically the untranslated gene of this gene. NKX 2.5, a transcription factor and first progenitor in cardiac formation, it encodes 324 amino acid and contains a homeodomain (142-200aa) which is highly conserved among vertebrates. To date, no data is available about the mutations in this gene responsible for CHD in Pakistani population. Material and Methods: A cohort of 225, CHD patients who were registered at National Institute of Cardiovascular Diseases (NICVD) from 2006-2009 were included in the study; these are non-syndromic and sporadic cases. Healthy 200 controls were also included with informed consents and detail family history was obtained. DNA was extracted and NKX 2.5 gene was amplified and sequenced to check mutations. Results: The mean age for patients TOF (2.97±1.21), PDA (2.95±2.55), D-TGA (1.84±2.26) and for controls (3.14±1.82) .In present study, two UTR alterations have been reported for NKX 2.5 one at 5' and other at 3'.In our study we look social and genetic aspects for these diseases. Conclusion: CHD is a major cause of child death in the first year of life. Our study concludes a few aspects and will broaden it to other genes as it is a need to find etiology of these diseases and to combat it with the modern genetic therapeutics.

Partial purification and some properties of -amylase from Bacillus subtilis KIBGE-HAS.

An extracellular -amylase from Bacillus subtilis KIBGE-HAS was partially purified by ultrafiltration and ammonium sulphate precipitation with 19.2-fold purification and specific activity of 4195 U/mg. The enzyme showed relatively high thermostability and retained 62% of its activity when kept at 70°C for 15 min. -Amylase was highly stable at -18°C and loss of activity was very low during stability study. Metal ions like Mn2+, Ca2+, Co2+, K+, Mg2+, and Fe3+ activated the enzyme, while Hg2+ Ba2+, Cu2+, Na+ and Al3+ strongly inhibited the activity. The α-amylase was highly stable in various surfactants and detergents. In the presence of surfactants such as SDS and Triton X-100 the enzyme activity was found 2.9 and 1.8-fold higher respectively than control. The non-ionic detergents (Tween 20 and Tween 80) exhibited slightly inhibitory effect on the enzyme activity.