Golden Agri Next Resistance Doji High

Clone Shooting Star Doji approaching the resistance set by doji high on 11th April 2008 at 98 cents. Breakout above this resistance will propel price towards $1.07 peak. Immediate support is 50 EMA followed by 20 EMA support line. Support failure here will test 90 cents gap support.

How do geneticists indicate the location of a gene?

Geneticists use maps to describe the location of a particular gene on a chromosome. One type of map uses the cytogenetic location to describe a gene’s position. The cytogenetic location is based on a distinctive pattern of bands created when chromosomes are stained with certain chemicals. Another type of map uses the molecular location, a precise description of a gene’s position on a chromosome. The molecular location is based on the sequence of DNA building blocks (base pairs) that make up the chromosome.

Cytogenetic location

Geneticists use a standardized way of describing a gene’s cytogenetic location. In most cases, the location describes the position of a particular band on a stained chromosome:

17q12

It can also be written as a range of bands, if less is known about the exact location:

17q12-q21

The combination of numbers and letters provide a gene’s “address” on a chromosome. This address is made up of several parts:

• The chromosome on which the gene can be found. The first number or letter used to describe a gene’s location represents the chromosome. Chromosomes 1 through 22 (the autosomes) are designated by their chromosome number. The sex chromosomes are designated by X or Y.

• The arm of the chromosome. Each chromosome is divided into two sections (arms) based on the location of a narrowing (constriction) called the centromere. By convention, the shorter arm is called p, and the longer arm is called q. The chromosome arm is the second part of the gene’s address. For example, 5q is the long arm of chromosome 5, and Xp is the short arm of the X chromosome.

• The position of the gene on the p or q arm. The position of a gene is based on a distinctive pattern of light and dark bands that appear when the chromosome is stained in a certain way. The position is usually designated by two digits (representing a region and a band), which are sometimes followed by a decimal point and one or more additional digits (representing sub-bands within a light or dark area). The number indicating the gene position increases with distance from the centromere. For example: 14q21 represents position 21 on the long arm of chromosome 14. 14q21 is closer to the centromere than 14q22.

Sometimes, the abbreviations “cen” or “ter” are also used to describe a gene’s cytogenetic location. “Cen” indicates that the gene is very close to the centromere. For example, 16pcen refers to the short arm of chromosome 16 near the centromere. “Ter” stands for terminus, which indicates that the gene is very close to the end of the p or q arm. For example, 14qter refers to the tip of the long arm of chromosome 14. (“Tel” is also sometimes used to describe a gene’s location. “Tel” stands for telomeres, which are at the ends of each chromosome. The abbreviations “tel” and “ter” refer to the same location.)

The CFTR gene is located on the long arm of chromosome 7 at position 7q31.2.

http://ghr.nlm.nih.gov/handbook/howgeneswork/genelocation

Cosco 5 mins chart double resistance lines

Upward move from early morning intraday low blocked by blue support turned resistance line.
Next resistance is red downtrend line. Immediate support $3.34 followed by $3.31 .

The Secret of Candlestick Charting

Louise Bedford has degrees in Psychology and Business. She trades full-time from her home in Melbourne and is a regular speaker on the equities and derivatives market. She also conducts workshops and seminars throughout Australia and is the author of the top-selling books The Secret of Writing Options, The Secret of Candlestick Charting, Trading Secrets & Charting Secrets.

Louise is the Director of Trading Secrets. She has more than a decade of trading experience and has profited in all types of market conditions. She is a highly sought after keynote speaker, and she excels in making complex subjects seem simple. Her skills have helped hundreds to trade their way to financial success. Louise states that "Trading mistakes can be expensive, so it makes good sense to learn how to avoid them. By training traders of all levels, it is my goal to improve the profitability of every client."

Most traders on the ASX are familiar with line and bar charts, but there has never before been a book written in Australia on the ancient Japanese art of Candlestick charting. Louise Bedford, author of the highly successful THE SECRET OF WRITING OPTIONS, writes in a clear, concise way and uses plenty of examples to help readers understand Candlesticks and use them to profitably trade the markets.

DNA Overview of biological functions

DNA usually occurs as linear chromosomes in eukaryotes, and circular chromosomes in prokaryotes. The set of chromosomes in a cell makes up its genome; the human genome has approximately 3 billion base pairs of DNA arranged into 46 chromosomes.^[54] The information carried by DNA is held in the sequence of pieces of DNA called genes. Transmission of genetic information in genes is achieved via complementary base pairing. For example, in transcription, when a cell uses the information in a gene, the DNA sequence is copied into a complementary RNA sequence through the attraction between the DNA and the correct RNA nucleotides. Usually, this RNA copy is then used to make a matching protein sequence in a process called translation which depends on the same interaction between RNA nucleotides. Alternatively, a cell may simply copy its genetic information in a process called DNA replication. The details of these functions are covered in other articles; here we focus on the interactions between DNA and other molecules that mediate the function of the genome.

http://en.wikipedia.org/wiki/DNA