Do you know High throughput screening?

Introduction
High throughput screening (HTS), is a technology system based on the experimental method of molecular and cellular level, micro-plate form as experimental tool carrier, operating system to perform automated testing process, sensitive and rapid detection equipment to collect experiment data, computer doing the analysis of data and at the same time detecting tens of millions of samples. It has the characteristics of trace, rapid, sensitive and accurate.

Features
High-throughput screening is boring for it has tens of millions of samples to be detected everyday. The operate is prone to feel tired and make mistakes. Automation system consists of a computer and its operating software, automated pipetting devices, incubation centrifugal equipment and stack. Automation system has many advantages over manual operation. It controls the whole process by the use of computer and its software, and the programming process is clear and concise.

Application
Full use of medicinal resources
The high throughput screening depends on a large number of samples, making it possible for the large-scale drug screening. It not only improves the chances of drug discovery but also increased the quality of drug discovery.

Micro screening system
The high throughput screening uses screening models at cellular and molecular level. The sample amount is generally in micrograms (μg), thus saving sample resources as well as experimental material.

Highly automated operation
With the emphasis on high throughput drug screening continues to improve, operation equipment and testing instruments used have made considerable progress. Computer-controlled automation achieved, incidence of operate error reduced and efficiency and accuracy of the results improved.

Combination of multi-disciplinary theories and techniques
In high throughput screening process, not only general pharmacological techniques and theory were applied, but also closely bind to medicinal chemistry, molecular biology, cell biology, mathematics, microbiology, computer science and other subjects.

Simple blood test can tell your age?

In a recently published study in Scientific Reports, scientists from Uppsala University have developed a simple blood test technology that can help reveal the body’s biological age, that is can tell your age.

Professor UIf Gyllensten pointed out that with the popularity of new technologies, the future will easily bring incentive medical interventions or help change the lifestyle of patients and monitor the effect. As the aging of our body and different organs, lifestyle factors such as smoking and stress will affect the body’s molecular processes and the aging rate.

Today, herein researchers have developed a simple blood detection technology that can help reveal how lifestyle affects our body’s aging. The researchers analyzed the level of various proteins in the blood sample form 1,000 individuals. By analyzing the protein levels can help evaluate the body’s biological age, weight, height and hip. Protein expression in the blood can be affected by a series of lifestyles and certain factors will accelerate the aging of the body, while other factors will slow the aging processes.

The researchers said, “We found smoking, high BMI and consumption of sugar-sweetened beverages to increase the predicted chronological age by 2-6 years, while consumption of fatty fish, drinking moderate amounts of coffee and exercising reduced the predicted age by approximately the same amount.” Thus, this method can be applied to dried blood spots and my be useful in forensic medicine to provide basic anthropometrical measures for an individual based on a biological evidence.

Novel Anti-Cancer Method

In a novel study recently published in Nature Structural and Molecular Biology, scientists from the University of Surrey have found some important proteins that perform and regulate key biological process. When those proteins or the process fail to function, cancer and other diseases would come. This finding may help develop more effective methods for the treatment of incurable and debilitating disease.

In this study, the research team has, for the first time, analyzed a kind of important regulatory proteins-RNA binding proteins in baker’s yeast and roundworms as well as their interactions with mRNA (an important molecule that guides protein synthesis). Although these two organisms are very different, but scientists discovered in the protein revealed amazing evolutionarily conservation, which means however, metabolic enzymes-the team believes it has existed for billions of years-have new features.

André Gerber, first author of this article said: “This is an important breakthrough, because the protein and process we identified also present in human beings. We knew that they have a strong relationship with a number of diseases like cancers and neurodegenerative diseases. Now we can use new knowledge to test if the case-a new mechanism that control key biological processes-can bring effective treatment for cancers.”

Dr. Emma Laing, co-author of this article said: “It may be that before the show of protein, RNA drives this function, going back to the old mechanism, or it may be that these proteins have a hidden feature that we do not know now.”

Organoid in Laboratory: “Kidney”

In a report recently published in Nature, scientists from Australia and the Netherlands said they have successfully cultured human kidney tissue that has a preliminary growth state by using stem cells, making the idea of developing fully functional organ in the laboratory one step further!

The researchers said this tissue is not viable but can be used for other purposes, such as replacing animal model in drug toxicity tests. By the application of iPS, researchers produced the kidney-like structure. At present, for the lack of organ donation, using stem cells to create human organs has long been a major obstacle in scientific research.

Scientists need to induce stem cells so that they can differentiate and assemble as kidney, liver and lung cells. Then these cells can form as a real anatomical structure and finally function in patients. In this very study, the researchers managed to induce pluripotent stem cells to be transformed into two types of adult cells. David, one of the researchers, said: this product is not kidney but a kind of organoid. So there’s still a long way to go for it to be transplanted organ in clinical use.

However, the researchers pointed out that this type of organ might help complete a different medical needs, namely the detection of new drug safety in human body. Stem cells are a kind of primitive cells and after growth and differentiation, they are developed into a variety of special types of cells which will form different organs such as brain, heart, kidneys and so on.

Until a few years ago, when the iPS has been developed, the only way to get stem cells is from human embryos. However, the destruction of human embryos for the obtain of stem cells is controversial in the scientific community. Currently, other research teams have also reported to have cultured organoids like stomach, liver, retina, brain and heart tissue by the use of pluripotent stem cells.

Microbial Cloud around You

We leave hints of bacteria on all that we touch-keyboard, cell phone, water cups, however, physical contact isn’t the only way to make a microbial mark. People shed swarms of microscopic organisms that linger in the space around them, making a “microbial cloud”.

Published in Peer J, the new study revealed that such cloud of bacteria may be totally unique to each person., just like a microbial fingerprint. Before came to this conclusion, scientists have conducted two experiments in which they placed people in test in a sanitized room and surrounded them with rings of petri dishes. To catch the floating microbes, they suspended air filters. As comparison, another room is humanless but otherwise identical. They compared the samples captured from the two rooms and found that the two species were microbially distinct. Then, another question came into being: if a person’s microbial can set two rooms apart, can it set two people apart? The answer was yes in six of the participants.

Furthermore, the researchers sequenced the microbial cloud samples and found that many of the participants have the same bacteria in their cloud, but in different concentrations. As for how far our microbial cloud can extend, the researchers were not sure. But they estimated that the cloud float within a 90 centimeter radius, suggesting that there’s a high chance that our microbial cloud will mingle in any semicrowded space like in a subway.

So , can you imagine that, a microbial cloud around you?

Edited by Creative BioMart.

How does fish beat the heat?

First think about it: when we feel too hot, what will we do to beat the heat? Air conditioning, fan, swimming in the pool, etc. would be the things that come into mind. Yes, we beat heat with those things. But what will fishes do, if they feel hot when the temperature of the water is so hot? A recent new study has given an answer to it.

A team in James Cook University has found that in order to withstand a warming climate, fishes would retreat to the deeper ocean floor. This study, published in Coral Reefs however, provided direct evidence for the impact of climate change bringing to ocean ecology. 

Researchers have labeled 60 Redthroat Emperor Fish and released them at Heron Island, which is in the south of the Great Barrier Reef in east Australia. These fish are equipped with an electronic signaling device that can send a signal, it can provide the number, depth, and location information to the receiver. When these fish appear in the Great Barrier reef slopes, signals emitted by those electronic devices can be monitored. By year-long monitoring, the researchers found that these fish appear more in the reef slope when the temperature is low. At the same time, they found that when the temperature becomes higher, frequency of these fish appearing in deeper ocean increases.

The researchers considered the effects of temperature, barometric pressure, rainfall, wind and lunar gravity on the positioning of these fish. However, they found only the temperature was related to the occurrence of signals. By one year's monitoring, they found only when the temperature is below 24 degrees Celsius, these signals will be emerge. The researchers believe that there are other options for these fish. On the one hand to escape the heat, they can dive into the deep waters for these fish can tolerate a 160-meter-deep water environment. In addition, they can move farther, and migrate to the south ocean where the water temperature is lower. Because the researchers found the whereabouts of these fish in the west coast of Australia Perth coast, far away from the habitat of these fish.

The next step of them is to focus on whether these fish can adapt to high temperature environment, Leanne Currey, one of the researchers in this study, commented.

This is Written by Caroline from Creative BioMart.

About Creative BioMart
Creative BioMart provides quality recombinant proteins, diagnostic antibodies and antigens, diagnostic enzymes and pharmaceutical enzymes to the research community of biology, clinical research, molecular diagnostics and biopharmaceutical drug development. We are offering more than 1,000 recombinant proteins, peptides and antibodies. All the products are rigorously tested to meet the most demanding research needs. At the same time, lowest prices in the industry are always guaranteed.

Contact Creative BioMart
Address: 45-16 Ramsey Road Shirley, NY 11967, USA
Tel: 1-631-559-9269
Email: info@creative-biomart.com
Website: http://www.creativebiomart.net/

Custom Protein Service in Creative BioMart

Creative BioMart, a world leading biotech company, providing comprehensive, high quality recombinant protein and custom protein services. Over the years, Creative BioMart has been trying to enlarge its protein services and up to now, it offers a variety of protein expression platforms coupled with a lot of other protein services like membrane protein services, protein labeling and stable cell line services. Creative BioMart strives to partner with its worldwide customers to explore new frontiers in biological science and accelerate their scientific discovery. Let's see what specifically does Creative BioMart has for its protein services:

Custom Membrane Protein Production
Creative BioMart offers services in the production and formulation of membrane and other proteins for numerous applications. The company has developed FoldEZTM technology especially designed to tackle with issues related to the discovery of therapeutics for low abundance membrane proteins, primarily GPCRs and ion channels. Custom membrane protein production service in Creative BioMart includes: Custom Membrane Protein Production, Cell Line Development and Membrane Preparation and Lipid-based Protein Immobilization.

Stable Cell Line Services
Stable cell line services in Creative BioMart range from stable expression lines for research purpose to GLP grade stable cell lines that are for protein production. Conventional gene transfer methods for stable cell line development are also available in Creative BioMart. And for knock-out and knock-in cell lines, Creative BioMart has BioCRISPRTM custom genome editing service.

Protein Expression and Purification Services
Protein Expression and Purification Services are the star service in Creative BioMart. Based on a long history in protein expression and purification, the company has developed a breadth of knowledge that services as a valuable resources for customers. Up to now, Creative BioMart offers 18 kinds of expression systems for customers to choose including Bacterial Expression Systems (E. coli / Bacillus), Serum-Free Expression System, High-throughput Protein Production, etc.

Protein Labeling
The company’s protein labeling & conjugation service provides customized solutions to meet the researchers specific needs. On the customers’ behalf, Creative BioMart carry out Stable Isotope Labeling, Protein Biotinylation, Fluorescent Labeling in Vitro, Fluorescent Tagged Protein in Vivo and Enzyme/Antibody conjugation.

PEGylation Services
Featured as Increased intellectual property value, Site-specific modifications and linkers, Consistent lot to lot characterization and biological activity and Scaleable chemistry,  synthetic polymer PEG modification and bioconjugation services in Creative BioMart have served hundreds of customers covering more than 50 countries.

Connect http://www.creativebiomart.net/Custom-Protein-Service.htm to explore more about custom protein services provided by Creative BioMart.

What makes a rose so sweet?

Recently, researchers working with roses have identified an enzyme called RhNUDX1. This enzyme was said to play an important role in producing the flowers’ sweet fragrances.
Ornamental plants which have been bred mostly for their visual traits, provide essential oils for perfumes and cosmetics. However, their strong scents are fading over the generations. So, how should we restore their fragrant odors? This, according to scientists, requires a better understanding of the rose scent biosynthesis pathway.

Even until now, most studies of rose fragrance have been focused on a biosynthetic pathway that generates pleasant-smelling alcohols such as monoterpenes, using specific enzymes named terpene synthases. In some of the scientists’ eyes, terpene synthases provides sole route to the production of fragrant monoterpenes in plants.
However, scientists in this new study studied two kinds of roses: Papa Meilland cultivar that smells very strongly and Rogue Meilland cultivar that has little scent. To be specific, they studied the genes of these two cultivars, trying to find the difference. To their surprise, the researchers fount that an enzyme called RhNUDX1 generates the fragrant.
In the scientists’ words in this research, it may be easier for botanists to exploit the RhNUDX1 gene to bring appealing scents back into these iconic flowers.

Novel Platform Was Found to Predict the Future Identity of Stem Cells

Stems cells are often used as a sort of repair system for the body. As long as theperson or animal is still alive, stem cells can theoretically divide without limit toreplenish other cells. This promising area gives scientists new hope to investigatethe possibility of cell-based therapies for the treat of disease. But there’s aproblem. How can we know exactly what organ or tissue that a cluster of fetalstem cells will become in the end? Is this achieved, it would be more easier toobserve the whole process and ensure it develop in the right way.

Luckily, a recent published study seemed to give us hope. Scientists in this studyhave developed a novel system that has the ability to match what’s happeninginside of an immature stem cell to known human fetal cell gene expression, thusdetermining what the stem cells will turn into in the future.

Named KeyGenes, this system can identify human stem cell derivatives bycollecting extensive data on gene expression during human fetal development.This system was believed to have huge clinic significance, enabling us to knowclearer about where human development goes wrong. It makes the identify ofwhich tissues are present in excessive amounts or are not in the right placepossible.

The next step for them, according to the chief scientists of this study, is to makethis platform openly available for the scientific community, so that more people willbenefit from it.

This was written by Caroline from Creative BioMart.

Source: http://www.wikigenes.org/e/pub/e/575.html

How to do protein extraction and preparation?

It is known to all that proteins have a wide range of types and they have their own properties. Even they are of the same type, methods for protein extraction and preparation will be different because different materials are adopted. And because they are in different systems, so it is impossible to have a fixed method for all kinds of protein separation.

Majority of the work in the key part of the separation substantially is common. Basically, most of the protein can be dissolved in water, dilute salt, acid or dilute alkali solution, and a few proteins bounded with lipids can be dissolved in ethanol, acetone and butanol the organic solvent. Therefore we should adopt different solvent for the extraction, separation and purification of proteins and enzymes. The solubility difference of Proteins and enzymes in different solvents, mostly depends on the proportion of protein molecules nonpolar hydrophobic groups and polar hydrophilic group, and also depends on the arrangement of these groups and dipole moment. The internal difference for protein dissolve lies in its structure and the external reason lies in the temperature, PH, ionic strength, etc.

The whole preparation process can generally be divided into five phases: 
1.The selection and preprocessing of material
2.Cell disruption (sometimes need cell separation device)
3.Extraction
4.Purification (including salting out, organic solvent precipitation, solvent extraction, adsorption chromatography, ultracentrifugation and crystallization)
5.Concentration, drying and preservation. 

But it doesn’t mean that all the five stages is required in all program, nor is it completely separated from each stage. Specific considerations should be taken according to the different methods that you have adopted.

This is written by Caroline from Creative BioMart.

About Creative BioMart
Creative BioMart provides quality recombinant proteins, diagnostic antibodies and antigens, diagnostic enzymes and pharmaceutical enzymes to the research community of biology, clinical research, molecular diagnostics and biopharmaceutical drug development. We are offering more than 1,000 recombinant proteins, peptides and antibodies. All the products are rigorously tested to meet the most demanding research needs. At the same time, lowest prices in the industry are always guaranteed.

Contact Creative BioMart
Address: 45-16 Ramsey Road Shirley, NY 11967, USA
Tel: 1-631-559-9269
Email: info@creative-biomart.com
Website: www.creativebiomart.net

Metabolism Assays in Creative BioMart

Metabolism, the catabolic or anabolic biochemical reactions inside of the cell, allows living cells to grow and reproduce, and maintain their structures. It can also be referred to nutrition and the availability of nutrients. Involving complex sequences of controlled chemical reactions called metabolic pathways, metabolic reaction is very important to both humans and animals.

With years of experience and robust facilities, Creative BioMart provides metabolism assays for customers worldwide. Customers have a lot of choices in Creative BioMart. Up to now, metabolism assays in Creative BioMart include: 

In Vitro Assays

Cytochrome P450 inhibition

Metabolic stability (microsomes, hepatocytes)

Metabolite profiling and identification

Multiple species cross-comparisons

CYP450 reaction phenotyping

Metabolic drug-drug interactions

Protein binding (HTS fluorescence HSA, AGP binding), equilibrium

HERG channel inhibition

Aqueous solubility

Fatty Acids Related Assays

Cholesterol/Cholesteryl Ester Quantification

Different from the services from other company, metabolism assays from Creative BioMart have the following advantages: Straightforward procedure, Easy to perform, just add-mix-read, Sensitive, accurate, and reliable, WIDE assay range, Easy to calculate results, Fluorometric and/or colorimetric detection and Suitable for high-throughput assays.

If you want to know more about the metabolism assays provided by Creative BioMart, you can visit http://www.creativebiomart.net/Metabolism-Assays.htm to know more.