An Introduction To DNA

An Introduction To DNA DNA (deoxyribonucleic acid) is the genetic material of eve living organisms including some viruses. It is a dimer consists of two strands that immerse upon each other and appear as a double helix that are linked together covalently with each other. Each strand is made up of similar repeating units called nucleotides. Each nucleotide composed of three different moieties,a 2-deoxyribose sugar,a phosphate group and a nitrogenous base. 1.1.1 2-Deoxyribose sugar The 2-deoxyribose sugar, a major structural component of DNA is a cyclic molecule .The sugars are joined together by phosphate groups that form phosphodiester bonds between third and fifth carbon atoms of adjacent sugar rings.The 5 carbon of deoxyribose sugar is attached to the 3 carbon of the next, and make a network of 3 carbon and 5 carbon.5end of a DNA molecule is characterized by a free phosphate (P) group and the 3 end is characterized by a free hydroxyl (OH) group. It lacks an hydroxyl group at the 2 position as in a ribose therefore a sugar moiety is a 2-deoxyribose. Two free hydroxyl groups are also located on the 5 carbon and 3-carbon of 2-deoxyribose sugar.These hydroxyl groups give a DNA oligomer its designation of 5 and the 3 end(usually accent as three prime end and five prime end). 1.1.2 Sugar-Phosphate backbone The 2-deoxyribose sugar and a phosphate group forms the backbone in the DNA which are highly polar and defines directionality of the molecule. The polar hydrophilic back- bone is surrounded by a core of hydrophobic bases and is important for the stability and structure of DNA. The phosphate groups have a negative charge that gives a concentra- tion of negative charge on the backbone of DNA and also makes DNA,a negatively charge 5 1 Fundamentals molecule. The charge is also neutralised by DNA-binding proteins that contain the pos- itively charged amino acids lysine and arginine, which are attracted to the negatively charged phosphate backbone. See Fig. 1.1. Figure 1.1: DNA backbone 1.1.3 Nucleic acid bases DNA contain four different nitrogenous bases that make monomer of one nucleotide different from other. These bases are adenine (A), thymine (T), cytosine (C), and gua- nine(G). The bases come in two categories pyrimidines and purines. Larger nucleic acids adenine and guanine are members of a class of doubly ringed structures called purines while the smaller nucleic acids cytosine and thymine are members of a class of singly- ringed chemical structures called pyrimidines .A six-membered ring with two-nitrogen molecule formed a pyrimidine structure whereas purine is produced by a nine-membered, ring with four- nitrogen molecule. Each unit of the ring constructing the base is numbered to for specific identification. They are arranged in a particular order along the backbone of DNA to make a long chain of varying sequence that contains the code for proteins.The sequence specifies the exact genetic instructions required to create a particular organism with its own unique traits. 6 1 Fundamentals 1.1.4 Base Pairing in DNA The nitrogenous bases are responsible to form double-strand of DNA in consequence of weak hydrogen bonds and have specific shapes and hydrogen bond properties. The three hydrogen bonds form between guanine and cytosine and then denoted as G.C or C.G,depending on which is associated with the first strand. Similarly adenine and thymine also bond exclusively by pairing of two hydrogen bonds and then denoted as A.T or T.A. This coupling up of nitrogen bases termed as complementarity.,A hydrogen bond donor need an equivalent hydrogen bond acceptor to form a hydrogen bond in the base across from it. Purines are only complementary with pyrimidines because molecules in pyrimidine-pyrimidine pairings are very far from each other that doesnt makes the hydrogen bonding to be established. Purine-purine pairing are energetically unfavourable because the molecules are too close and create an electrostatic repulsion. The only possible pairings are GT and AC. Primary and secondary amine groups or hy droxyl groups are common hydrogen bond donar while carbonyl and tertiary amines are common hydrogen bond acceptor groups. There are two hydrogen bonds between an A:T base pair. One hydrogen bond lie between the 6 primary amine of adenine and the 4 carbonyl of thymine. The other hydrogen bond form between the 1 tertiary amine of adenine and the 2 secondary amine of thymine. On the other hand,G:C base pair has three hydrogen bonds. One hydrogen bond lie between guanine with its 6 hydrogen bond accepting carbonyl and cytosine having 4 hydrogen bond accepting primary amine. The second hydrogen bond also formed between guanine on 1 secondary amine and cytosine 3 tertiary amine and the third formed between the 2 primary amine on guanine and the 2 carbonyl on cytosine. 1.1.5 Directionality The directionality of DNA is vitally important to many cellular processes. since,double helices are necessarily directional(a strand running 5 to 3 pairs with strand running 3 to 5 )and processes such as DNA replication occur in only one direction. The two DNA strands in a duplex are anti parallel and form a chemically stable structure. That is, one strand running from the 5-phosphate to 3-OH is paired with the other strand arranged with its 3-OH opposite the 5-phosphate of the first strand, and its 5-phosphate opposite the 3- OH of the first strand. 7 1 Fundamentals 1.1.6 3 end and 5 en DNA strand is inherently directional.The 3 prime end has a free hydroxyl (or phos- phate) on a 3 carbon and is called as the tail end. New nucleic acid molecules are formed by one end of 3-hydroxyl as it is ligated to the other end of 5-phosphate of a different nucleotide that make it possible to form strands of connected nucleotides.Molecular biologists can use nucleotides that has a deficiency of 3-hydroxyl(dideoxyribonucleotides) to stop DNA replication .The 5 prime end has a free hydroxyl (or phosphate) on a 5 carbon in the sugar-ring and this end is called as the tail end . If a phosphate group bind with the 5 end, ligation of two nucleotides can form, with a phosphodiester bond from the 5-phosphate group to the 3-hydroxyl end of other nucleotide. ligation can also stop if the above process is eliminated. Molecular biologists have an advantage of the above phenomenon to stop ligation of any unnecessary nucleic acid by removing the 5-phosphate with a phosphatase. 1.2 DNA-Ligand Binding The structure of DNA represents a variety of sites where ligands may interact and bind with DNA.The binding interaction between a drug and DNA often leads to a signi_- cant modi_cation of the structure of the DNA and may have an important inuence on their physiological functions associated with several biological e_ects including antivi- ral,antibacterial,antipotozoal and antitumor. Modes of Binding Because of the complex double-helical structure of DNA,drug molecule interact with DNA in a number of modes. A number of forces of varying strength involved in each interaction. Electrostatic forces with the phosphate backbone,sequence sensitive van der Waals interaction and hydrogen bonding interactions that occur between polar atom of bases and hydrogen molecules are incorporated singly or in combination.To understand the mechanism of interaction of each mode,it is best to discuss di_erent binding modes that can act on DNA. (a) External Binding (b) Intercalators (c) Groove binding (i) Major groove binders (ii)Minor groove binders External Binding This type of binding results due to electrostatic forces applied to the negatively charge phosphodiester group along the backbone of DNA for cationic molecule.Ligand charge, hydrophobicity and size a_ect on electrostatic interactions.External binding may also be due to either covalent or non-covalent interactions.This mode of binding is characteristics for major groocould potentially be sampled during simulations where the charge and shape of helical molecules are both changed. Intercalators An important class of molecules that binds to DNA are intercalators,which have been extensively used as a anti-cancer drug.Intercalation occurs due to immersion of a at aromatic drug molecule between nucleic bases contributes to unwind DNA helix(67).The interaction between a positively charged intercalator and a negatively charged DNA can be quite strong and form complex through electrostatic forces.Energy consumed to unstacked the nucleic acid bases which forms a gap between neighbouring base pairs into which the intercalator can _t easily.Because of small binding site,they have a little sequence selectivity and many known intercalators shows limited selectivity for GC base pairs such as ethidium bromide which has a high a_nity towards GC site.Several other drugs such as propidium,proavin, anti-tumor drugs adriamycin and actinomycin D intercalate with DNA. Groove Binders Smaller ligands preferentially binds to minor groove region whereas proteins and other large molecules speci_cally _ts into the major groove region of DNA. They have crescent -shaped conformation due to presence of two or more than two aromatic rings that gives a conformational exibility to the molecule and makes it perfect to _t in the groove. They also possess some functional group that forms hydrogen bonds at lower most part of DNA bases.They perfectly accommodate in the AT rich regions but some known groove binders show little preference towards GC site. Major Groove binders Presence of number of hydrogen bonds on the DNA major groove enhance its recognition potential. Major groove speci_c compounds are alkylating and methylating agents and and N 7 position of guanine in the major groove take part in interaction.one of the most common example is Cis platin which is a well known anti cancer drug. Minor Groove binders The most widely studied DNA interacting agents are minor groove binders that occurs naturally and also synthesize according to their sequence speci_c properties as they have pronounced binding a_nity towards AT rich groove.AT binding site is more thinner and deeper than GC so that all heteroaromatic rings such as furan,pyrole,benzene and Imidazole of minor groove binders twisted and _t better into AT site by applying van der waals force.Hydrogen bonds of bound molecule attached to the AT base pairs to the C-2 carbonyl oxygen of thymine or N-3 nitrogen of adenine.GC base pairs also contain same functional groups but a steric block form by amino group of guanine in GC locations which causes hinderence to the formation of hydrogen bond on guanine at N-3 position and on cytosine at O-2 cabonyl position,prohibiting vad derWaal forces and inhibit penetration of small molecules at GC sites of minor groove.AT site selectivity for positively charged minor groove binders also enhanced due to high negative electrostatic potential as compared to GC site. A number of experimental studies shows that minor groove of B type of DNA duplexes more suitable for binding of small molecules most often with Dickerson-Drew sequence d(CGCGAATTCGCG) and also similar such as d(CGCAAATTTGCG). 1.3.1 Berenil X-ray crystallography proof complex formation of berenil with dodecanucleotides,i.e. d(CGCGAATTCGCG) and d(CGCAAATTTGCG)which in turn shows its preference of binding with AT rich site of DNA minor groove and reside between three (AAT) or four(AATT) base pairs. A number of research on berenil also con_rm its weak interac- tion and intercalating behavior.Hydrogen bonds are also formed between the amidinium groups and adenine N-3 or thymine O2 atoms on reverse strands of a double helical DNA oligonucleotide.Berenil is a curve shape drug which match the helical structure of DNA minor groove. 1.3.2 Pentamidine One of the most clinically important drug,pentamidine is a synthetic antimicrobial com- pound also known aspentamidine (1,5-bis(4-amidinophenoxy)pentane,among all the mi- nor groove binders.It has been use as a secondary drug for treating aids related P.carinii pneumonia.Foot printing and X-ray crystallography shows its pronounced attachment to DNA sites which has minimum four to _ve successive AT base pairs with the charged amidinium group shows hydrogen bonding to O2 of thymine or N3 of adenine on oppo- site DNA strands. It contains two phenyl rings that are twisted after binding with the minor groove by 35ÂÂ ° with respect to each other by van der Waals forces. 1.3.3 DAPI DAPI also called 4,6-diamidino-2-phenylindole(DAPI) is a synthetic,unfused aromatic compound is widely used in molecular biology as a uorochrome on binding upon AT site of minor groove binder as well as an intercalating drug.upon binding to GC rich sequence without showing any property of uorescence.X-ray structure of DAPI with d(CGCGAATTCGCG)exhibited that the drug span three base pairs and also give a clear picture of parallel attachment of phenyl and indole rings to the minor groove walls of DNA. |||||||| 1.4 UV-Visible Spectroscopy Spectroscopy is a valuable tool in the study of intermolecular interactions. It is a well developed routine technique and plays an important role in analytical chemistry as well as it has widespread application in physics and life sciences. It deals with the mea- surement of the absorption of radiations in the ultraviolet and visible region of spec- trum.Spectroscopic techniques form the largest and the most important single group of techniques used in analytical chemistry,and provide a wide range of quantitative and qualitative information. All spectroscopic techniques depend on the emission or ab- sorption of electromagnetic radiations and used to determine the electronic structure of atoms and molecules. In order to understand these techniques,it is necessary to have some knowledge about properties of electromagnetic radiations and the nature of atomic and molecular energy. The ultraviolet region extends from 10 to 400nm.It is subdivided into near ultraviolet region (200 to 400nm) and the far or vacuum ultraviolet region(10 to 200 nm).The visible region extends from 400 to 800 nm. 1.4.1 Electromagnetic radiations Electromagnetic radiations are produced by the oscillation of electric charge and mag- netic _eld residing on the atom and has its origins in atomic and molecular processes. It vibrates perpendicular to the direction of propagation with a wave motion and can travel in space and does not need a medium like air or water to travel through. There are various forms of electromagnetic radiations e.g. visible,ultraviolet,infra-red, X-rays,microwaves and cosmic rays. They are characterised by frequencies,wavelength or wave numbers. The most familiar form of electromagnetic radiations is visible light which forms only a small portion of full electromagnetic spectrum. Electromagnetic spectrum A plot which shows a number of absorption bands with respect to energy versus wave- length has some properties yield various information and is broken into several regions called as Electromagnetic Spectrum.Di_erent regions of the electromagnetic spectrum provide di_erent kinds of information as a result of interactions. Electromagnetic spec- trum covers a very wide range of electromagnetic radiation that starts from gamma rays and ends on to radio waves. The boundaries between the regions are approximate and the molecular process associated with each region are quite di_erent.The regions in increasing order of frequency are 1/ Radio frequency region ;Nuclear magnetic resonance and electron spin resonance spectroscopy.The energy changes with change in direction of spin of a nucleus and elec- tron. 2/ Micro wave region:Rotational spectroscopy .Change in energy arise from transi- tions to higher energy associated with change in the rotational quantum number of the molecule. 3/Infra-red region:Vibrational spectroscopy The energy changes associated with transitions between vibrational levels of molecules. 4/Vis- ible and Ultraviolet region:Electronic spectroscopy The energy changes accom- pained with valence electrons of molecules. 5/X-ray region: inner electrons of an atom or a molecule invole in order to change energy of molecule. 6/ X-ray region: nuclear excitations necessary for an enegy change. 1.4.2 Law of molecular Absorption:Beer-Lambert law All spectrophotometric methods that measure concentration in terms of absorbance,including detection of proteins and nucleic acids,determine molar absorptivity of metal com- plex,various enzyme essay,describe attenuation of solar or stellar radiation and di_er- ent metabolites based upon two basic rules,which combinely spoken as Beer-Lambert law.This law was basically originate by a French mathematician Lambert,which states that the function of light absorbed by a transparent medium s independent of the inci- dent light assing through it.This shows that logarithm of the decrease in light intensity along the light path with respect to thickness of medium which can be written as follow log10(I0/I) = kl where IÂÂ ° is incident light intensity,I is light path length,k is a medium constant which is further interpret by a Beer,a German Physicist in the same year states that the amountof light absorbed is proportional to the number of molecules of the chromophore through which the light passes.One can also says that constant K is directly proportional to the chromophore concentration i.e. K=eC,e is the molar absorptivity of chromophore and is equal to absorption of 1M of solution at a path length of 1 cm and their unit is M-1cm-1.Now,combinely Lambert-Beer law presented as A = lC, whereby,the term log10(I0/I) is re_ered as absorbance(A),l is the thickness of solution and E is the molar absorption coe_cient. 1.4.3 Electonic transitions in Nucleic Acids Absorption or emission of radiations in nucleic acid causes di_erent types of transitions in UV-visible spectral regions and appear from n-pi* and pi -pi* transitions of purine and pyramidine bases. -* transition Large amount of energy required for the shifting of an electron from a bonding molec- ular orbital to a * antibonding molecular orbital in the UV region.Unsaturated hydro- carbons shows this type of transition and being transprent in the near UV such as methane,heptane and cyclohexane that shows maximum absorbance below 200 nm due to the fact that absorbance is equal to 1 for a thickness of 1 cm below 200nm. Similarly, water in the near UV(A=0.01 for 1cm ,at lambda =190nm)is transparent due to the presence of -* and n-* transitions. n- *transition This type of transition usually occur in compounds having lone pair of electrons and required energy lower than -* transition for the promotion of an n electron from an atom to an * molecular orbital.Moderate wavelength range for this transition is 150 to 250 nm as 180nm for alcohols,near 190nm for ethers or halogen derivatives and in the region of 220nm for amines. *transition Most of the organic compounds have a conjugate system and shows -* transitions with an intense strong absorption band occuring anywhere in the near UV region which depends upon the presence of heteroatoms substituents.These compounds also shows a slightly blue and red shift with respect to its polarity. n- *transition These bands are called forbidden bands having a low molar absorptivity less than 100 and originate from promotion of electron from a non bonding molecular orbital to an anti-bonding *orbital.This transition is more pronounced in molecules having a hetero atom with a lone pair of electron i.e.carbonyl which requires low energy and occur in the regions from 270 to 300 nm. d-d transition electrons placed in incompletely _lled d orbitals of most of the inorganic salts are re- sponsible for transitions of weak absorption and also color and located in the visible region..That is why the solutions of metallic salts of titanium or copper are blue,while potassium permeganate yeilds violet solutions, and so on. 1.4.4 Chemical shift Bathochromic shift change in max to longer wavelength(lower frequency)also change absorption,reectance transmittance or emission spectrum of a molecule mostly due to substitution or solvent e_ect i.e change in polarity of solvent called as bathochromic shift or red shift.Solvent e_ect is weak in less polar compounds as compared to polar one which can stabilise excited form,favours transition and causes a change in wavelength towards longer side. Hypsochromic shift The opposite e_ect of bathochromic shift also called as blue shift as max shift towards the blue end of spectrum.Unbonded electron pair lowers the energy of the n-orbital and increased solvation causes hysochromic shift.Mostly polar solvents such as water and alcohol have pronounce e_ect of hypsochromism due to broad hydrogen bonding between protons and the non-bonded electron pair during solvation. Hypochromic shift reduction in the intensity of uv light without any change in wavelength called as hypochormic e_ect which caused by the entry of an auxochrome which distrots the chromophore.For example ,biphenyl shows lAMDAmax 252nm,Emax19,000,whereas 2,2-dimethylbiphenyl shows Lambda max 270nm,Emax 800. Hyperchromic shift This e_ect leads to an increase in absorption of UV light at same wavelength due to appearance of an au that causes hyperchromic shift.For example,benzene shows B-band at 256nm,Emax 200,whereas aniline shows B-band AT 280nm,Emax 1430.The increase of 1230 in the value Emax of aniline compared to that of benzene is due to the hyperchromic e_ect of the auxochrome NH2. 1.4.5 Chromophore groups Organic compound mostly containing double bond is responsible to produce color and absorption of ultraviolet or visible radiations as single bond is not enough to do that but if many are present in conjugations,sharp color can produce. A single functional group or a collection of functional groups also capable for absorption and they also act as a chromophore. A complex molecule can contain more than one chromophore so the e_ect of conjugation on the chromophore is to shift the maximum absorption to a longer wavelength .i.e. a bathochromic shift or red shift appear with an increase in absorption intensity and the spectrum is strongly upset with respect to the superimposing e_ects of random chromophores. The more the number of carbon atoms on which the conjugated system is spreaded,the more the decrement in the di_erence between energy levels.and accounts large bathchromic e_ect. A very simple spectrum of a compound having one main peak absorbing below 300nm possibly contains a very simple conjugated system Instrumentation in UV-Visible Spectrophotometer UV-Visible spectrophotometer is a very simple to operate and able to perform quick qualitative as well as quantitative analysis.It is usuallay designed around _ve funda- mentals parts i.e. a radiation source,a monochromater(wavelength selector),a samplecell(cuvette),detector and a signal processor (readout device) for measuring the absorp- tion of uv or visible radiations.These components are typically integrated in a unique frame work to make spectrometers for chemical analysis.Two types of UV-Visible spec- trophotometers are generally in use:a _xed spectrophotometer with a single beam and a scanning spectrophotometer with double beams.Single beam spectrophotometers are highly sensitive devices and obtaining a spectrum requires measuring the transmittance of the sample and the blank at each wavelength separately.In the double beam spec- trophotometer,the light split into two parallel beams,each of which passes through a cell;one cell contains the sample dissolved in a solvent and the other cell contains the solvent alone.The detector measures the intensity of light transmitted through the sam- ple cell. Light source The intensity of radiation coming from the light source varies over the entire UV-Vis range.More than one type of source can be used in UV-Vis spectrophotmeter which au- tomatically swap lamps when scanning between the UV and visible range .A deutrium lamp is used for the wavelengths in the UV range,a tungsten lamp is used for the wave- lengths in the visible range and alternatively for the entire UV-Visible region,a xenon lamp can be used. Monochromator Its role is to spread the beam of light into its component wavelengths and a system of slits focuses the desired wavelength on the sample cell.The most widely used dispersing device is a prism or a grating made p of quartz because quartz is transparent throughout the UV range. Detector The detector converts the intensity of light reaching it to an electrical signal.It is by nature a single channel device.Two types of detector are used,either a photomultiplier tube or a semiconductor.For both of which the sensitivity depends upon the wavelength. QSAR and Drug design Quantitative structure-activity relationship (QSAR) (sometimes QSPR: quantitative structure-property relationship) is the process by which chemical structure is quanti- tatively correlated with a well de_ned process, such as biological activity or chemical reactivity. For example, biological activity can be expressed quantitatively as in the concentra- tion of a substance required to give a certain biological response. Additionally, when physicochemical properties or structures are expressed by numbers, one can form a math- ematical relationship, or quantitative structure-activity relationship, between the two. The mathematical expression can then be used to predict the biological response of other chemical structures. QSARs most general mathematical form is: * Activity = f(physiochemical properties and/or structural properties) Quantitative structure-activity relationships (QSAR) represent an attempt to corre- late structural or property descriptors of compounds with activities. These physico- chemical descriptors, which include parameters to account for hydrophobicity, topology, electronic properties, and steric e_ects, are determined empirically or, more recently, by computational methods. Activities used in QSAR include chemical measurements and biological assays. QSAR currently are being applied in many disciplines, with many pertaining to drug design and environmental risk assessment. Chromophore Organic compound mostly containing double bond is responsible to produce color and absorption of ultraviolet or visible radiations as single bond is not enough to do that but if many are present in conjugations,sharp color can produce. A single functional group or a collection of functional groups also capable for absorption and they also act as a chromophore. A complex molecule can contain more than one chromophore so the effect of conjugation on the chromophore is to shift the maximum absorption to a longer wavelength .i.e. a bathochromic shift or red shift appear with an increase in absorption intensity and the spectrum is strongly upset with respect to the superimposing effects of random chromophores. The more the number of carbon atoms on which the conjugated system is spreaded,the more the decrement in the difference between energy levels.and accounts large bathchromic effect. A very simple spectrum of a compound having one main peak absorbing below 300nm possibly contains a ve ry simple conjugated system such as diene or an enone whereas, if the spectrum is much mixed and also allocated in a visible region,then the molecule must contain chromophore having large red shift such as polyene ,polycyclic aromatic system etc. Solvent Effect Selection of solvent used in UV-visible spectroscopy is very important. The prime requirement for a solvent is that it should be transparent to radiation over full UV range and also not absorb UV radiations in the region of substance whose spectrum is actually analysed .Most of the organic solvents successfully meet that criteria and solvents without having any conjugtion are very convenient for this purpose.Among the solvents ,the water ,95% ethanol and hexane are most commonly used and are transparent in the full uv spectrum. Another valuable requirement for selecting a solvent is that it gives a nice spectrum of a set a absorption bands because polar solvent form hydrogen bonds with solute and the fine spectrum of the complex may vanish but this is not the case for non polar solvents where a fine spectrum often easily appears because of the absence of hydrogen bonding.Polar solvents also shows bathochromic effect which causes a decrease in electronic state. Asecond criteria for agood solvent is its effect on the fine strusture of an absorption band.Ano polar solvent doesnot hydrogen bond with the solute,and the spectrum of the solute closely approximate s the spectrum that would be produced in the gaseous state ,in which fine structure is often observed.In a polar solvent the hydrogen bonding forms a solute solvent comlex and the fine structure may disappear. Athird criteria for a good solvent is its ability to influence th

Jade Stadium Redevelopment (project management) Essay -- Business and

Jade Stadium Redevelopment (project management) Introduction The redevelopment of Jade Stadium, formally Lancaster Park, has been a project in development for a number of years. It is interesting to view the processes and changes in approaches to reach compromises, that have occurred in the lead up to this project especially with the stage the redevelopment is at now, (near completion). The emphasis placed upon planning and funding has had a huge impact to not only the time frame for completion of project but at a more basic stage of whether the redevelopment would even go ahead. The information used for this review dates back only as far as January 99, but even by that stage several years work had gone into pushing and lobbying for an improved, upgraded multi purpose stadium in Christchurch. Articles giving detail to the development process, the stages of development and the politics involved in the redevelopment of Jade Stadium are taken from January 20 1999, until the October 13 2000. The majority of articles are news items taken from Christchurch’s major newspaper, ‘The Christchurch Press’. Not all information present in the articles was relevant to the review topic of, the redevelopment of jade stadium, and so this is the reason for the use of several articles, to gain enough knowledge on the topic area. Temporary and Unique The jade stadium project is one of a temporary nature. Although it may be a long and drawn out process there is definitely a definite start (realisation of a need for a revamped stadium) and finish (completion of construction and closure). With respect to the jade stadium project, those dates have constantly changed. Originally set for an early 2000-start time, that date was changed several times until finally settled for October 2000 and estimated to take 18 months to complete. A deadline that they are currently on track to meet. Like any other project, Jade Stadiums redevelopment was a unique venture, not only in its actual design, ownership and the way in which the revenue to fund the project was produced but also in the actual use of the stadium. Being a rugby and cricket facility with ground breaking technology in the form of the new drop in pitches, an invention first tried by grounds staff two years ago. The stadium revamp unlike the new Wellington stadium will be done on the existi... ...point of view or side of the story, and that in general all articles relating to the redevelopment of jade stadium, held a more positive slant or position towards the development and the development team. The key points contained within the review begin with defining the uniqueness and temporary nature of a project and how jade stadium is a one off major project. The revenue provided to support such an expensive project comes from a wide and varying plane, with the use of a business plan one of the most important tools in the development of Jade Stadium. It can be noted that a great deal of importance was placed upon the planning phase in order to do it once and do it right. And that the project followed the basic project life cycle model. References Currie, S. (1999). The Jade Board. The Press, 20 January, 1996, p 34. McGoldrick, B. (2000). What about a total Jade upgrade? The Press, 26 August, 2000, p 10. Scanlon, G. (2000). $43m plea for Jade Stadium. The Press, 7 April, 2000, p 1. Tutty, K. (1999). Progress on stadium plans. The Press, 6 August, 1999, p 22. Tutty, K. (2000). Jade Stadium access settled for five years. The Press. 14 October, 2000.

HIPAA, CIA & Safeguards Essay

First enforcement action resulting from HITECH Breach Notification Rule Blue Cross Blue Shield of Tennessee (BCBST) has agreed to pay the U.S. Department of Health and Human Services (HHS) $1,500,000 to settle potential violations of the Health Insurance Portability and Accountability Act of 1996 (HIPAA) Privacy and Security Rules, Leon Rodriguez, Director of the HHS Office for Civil Rights (OCR), announced today. BCBST has also agreed to a corrective action plan to address gaps in its HIPAA compliance program. The enforcement action is the first resulting from a breach report required by the Health Information Technology for Economic and Clinical Health (HITECH) Act Breach Notification Rule. The investigation followed a notice submitted by BCBST to HHS reporting that 57 unencrypted computer hard drives were stolen from a leased facility in Tennessee. The drives contained the protected health information (PHI) of over 1 million individuals, including member names, social security num bers, diagnosis codes, dates of birth, and health plan identification numbers. OCR’s investigation indicated BCBST failed to implement appropriate administrative safeguards to adequately protect information remaining at the leased facility by not performing the required security evaluation in response to operational changes. In addition, the investigation showed a failure to implement appropriate physical safeguards by not having adequate facility access controls; both of these safeguards are required by the HIPAA Security Rule. â€Å"This settlement sends an important message that OCR expects health plans and health care providers to have in place a carefully designed, delivered, and monitored HIPAA compliance program,† said OCR Director Leon Rodriguez. â€Å"The HITECH Breach Notification Rule is an important enforcement tool and OCR will continue to vigorously protect patients’ right to private and secure health information.† In addition to the $1,500,000 settlement, the agreement requires BCBST to review, revise, and maintain its Privacy and Security policies and procedures, to conduct regular and robust trainings for all BCBST employees covering employee responsibilities under HIPAA, and to perform monitor reviews to ensure BCBST compliance with the corrective action plan. HHS  Office for Civil Rights enforces the HIPAA Privacy and Security Rules. The HIPAA Privacy Rule gives individuals rights over their protected health information and sets rules and limits on who can look at an d receive that health information. The HIPAA Security Rule protects health information in electronic form by requiring entities covered by HIPAA to use physical, technical, and administrative safeguards to ensure that electronic protected health information remains private and secure. The HITECH Breach Notification Rule requires covered entities to report an impermissible use or disclosure of protected health information, or a â€Å"breach,† of 500 individuals or more to HHS and the media. Smaller breaches affecting less than 500 individuals must be reported to the secretary on an annual basis. Individuals who believe that a covered entity has violated their (or someone else’s) health information privacy rights or committed another violation of the HIPAA Privacy or Security Rule may file a complaint with OCR at: http://www.hhs.gov/ocr/privacy/hipaa/complaints/index.html. The HHS Resolution Agreement can be found at http://www.hhs.gov/ocr/privacy/hipaa/enforcement/examp les/ resolution_agreement_and_cap.pdf. Additional information about OCR’s enforcement activities can be found at http://www.hhs.gov/ocr/privacy/hipaa/enforcement/examples/index.html.

Fathers Should Not Be Treated - 1417 Words

Fathers Should Not Be Treated the Same as Mothers in Deciding Family Court Cases Involving Child Custody A major argument in contemporary debates on social issues is that mothers are often favored in family court decisions. This favoritism is claimed to be particularly rampant on the issue of children’s custody, whereby many cases grant the custody to mothers. Here, the â€Å"nurturing† stereotype that perceives a mother as a better nurturer is blamed for the cases’ outcome. A recent study on whether fathers are actually discriminated against produced more controversy, as it argued that despite the fact that less than half of the cases grant fathers some form of access to children, these cases can be considered successful (Meyer). One would thus wonder whether there could be some factors studies like this take into consideration to argue that the cases are nonetheless successful. Notwithstanding, whether these factors are there or not, a keen look at the issues s urrounding divorce cases show that it would actually be unfair to treat mothers the same as fathers in family court decisions since mothers are naturally or in default entitled more access to the children. Fathers are actually to blame for the little or no access to children granted to them in family court decisions. This can be seen in the fact that even before divorce is initiated or in normal family circumstances, most fathers spend way less time with children compared to mothers. One study found that a marriedShow MoreRelatedWomen Of The Times Of Fairy Tales And Fantasy Writing1018 Words   |  5 Pagesonly evident in â€Å"Rapunzel,† but other fairy tales as well. In â€Å"Rumpelstiltskin†, the little girl who later became queen was treated like some tool by her father. This girl’s father, knowing that she that she could not spin straw into gold, claimed so in front of the king to appear of consequence (â€Å"Rumpelstiltskin,† Grimm 192). This sort of act should be deemed immoral and should be punished, but yet this character is not mentioned afterwards within the story at all and facing no form of punishment.Read MoreDeconstruction Paper - Daddy by Sylvia Plath839 Words   |  4 PagesPlath paints a great picture of a daughter and her Nazi father, but this poem is more than just that. It symbolizes the relationship that they once had, and how it has affected her throughout her whole life. This poem also shows a very generalized depiction of how women see men who have treated them not so greatly. Although Sylvia’s father was German, he was not a Nazi, which is how she depicted him in her poem â€Å"Daddy,† She imagines her father as an ordinary man when she states: â€Å"You stand at theRead MoreThe Course On The Perspectives Of Early Childhood And Elementary1316 Words   |  6 Pagesa classroom, to ensure that every student is treated equally. I had not realized how heteronormativity could affect elementary school students, until a classmate brought her experience to the attention of our class. Usually papers that get sent home to parents/guardians say things such as â€Å"mother and father†, but not every student will live in a household like this. There are students living in LGBTQ households, who may have two mothers or two fathers. My classmate shared that her daughter’s teacherRead MoreAnalysis Of The Movie Mr. Essay1713 Words   |  7 Pagesjoining a minstrel show. The boy narrates the big contrast in the family dynamics as the father takes on an alternative persona. The sudden change of personality causes the boy to doubt how his father really is. Mr. Bones advocates the idea that we should not judge a book by its cov er, as there is more to a person than what we see. It also represents how everyone has feelings, and the desire to be heard and treated properly. The author uses the minstrel show’s songs, the Jim Crow laws and its stereotypicalRead MoreSingle Mothers and Single Fathers in Society932 Words   |  4 PagesMothers and Single Fathers in Society Today Crystal D.Cole Com/170 February 9, 2012 University of Phoenix Single Mothers and Single Fathers in Society Today Being a single parent is tough in twenty first century. A single parent has to be the provider, the comforter, the teacher, and the disciplinarian all in one. In most single parent relationships, One feels that our priorities lie with our children first. Society seems to put some pressures on Single Mothers and Single Fathers. Single MothersRead MoreKill A Mockingbird, By Harper Lee1061 Words   |  5 Pages(Scout) were white, they were still treated unjustly as a result of helping and supporting Tom Robinson. Scout, Atticus’ daughter, had a rough childhood because her father was defending a Negro man, which caused many citizens of Maycomb to tease and hurt her. As a result, her life was threatened. She was attacked by Bob Ewell because her father defended Tom Robinson. Aside from racism, other injustices are also demonstrated in the novel. Scout was treated unjustly by her peers, her teacher,Read MoreEthical Dilemmas : Ethical Dilemma1418 Words   |  6 PagesINTRODU CTION â€Å"Nearly all healthcare clinicians have or will encounter ethical dilemmas during their clinical operations. Consequently most of them get not training on how to solve the situation. The clinical professionals should be trained on how to resolve ethical dilemma cases, since they are vulnerable to this kind of cases. Ethical dilemmas affect the psychological decisions one makes since they dread transgressing on other imperative moral decisions. Cases of ethical dilemmas affect almost everyRead MoreThe Fear Of Being Different1404 Words   |  6 Pageschildren are being treated-to accept there is nothing wrong being different from everybody. The movie was about how a dyslexia boy was being lazy and troublemaker, and his dad would takes his time to find what was his problem in school. Gifted child were not acceptable in our society. Society is ready to judge people without even taking the time to get to know others better. Indian parents focus on their children being perfect rath er accepting an imperfect child. The father of Ishaan was ashamedRead MoreThe Death Of The United States874 Words   |  4 Pagestheir father. This is what I would consider an epidemic because the numbers continue to rise yearly. With the numbers continuing to grow, American children continue to suffer. It is critical that a father is positively active in their child or children’s lives because father’s provide a sense of safety, mothers cannot teach a child everything that a child needs to know, and households gain balance when the father is present. I will now better explain. First of all, it is vital that a father is activeRead MoreWilliam Shakespeare s King Lear1480 Words   |  6 Pagesthe men of his father. He then carries his impression to help his father and King Lear further. He finally appears an armoured victor to avenge betrayal of his brother. The tendency for impersonations and disguises makes it complex to characterize him efficiently. Cordelia The main characteristics of Cordelia include compassionate, attractiveness, devotion, and trustworthiness. She is compared with Regan and Goneril throughout the play. By refusing to take the love test of his father, Cordelia established