Laboratory Analytical Methods

... recruited from the Lipid Clinic of the Utrecht Academic University Hospital, as previously described16. The probands met the following criteria: (1) a primary combined hyperlipidemia with varying phenotypic expression, including a fasting plasma cholesterol > 6.5 mmol/l, or > 90th percentile for age ...

G3: Genes, Genomes and Genetics Whole organism genome

... to create a DNA fragment with overhanging cohesive ends. For our experiments we chose to use zinc finger nucleases (ZFNs) as the molecular scissors where target site specificity is imparted by the zinc fingers and target cleavage is accomplished by Fok1 nuclease. Alternatively, TALENS or CRISPR coup ...

synthetic life - Biochemical Society

... All living things contain DNA (deoxyribonucleic acid), and it is found in every cell in our bodies. It is a unique code, made up of a sequence of chemicals. This sequence, called our genetic code or genome, determines how an organism is made; the same way the letters in the alphabet form words or se ...

AP Bio Ch 15

... - normal genes that code for proteins that stimulate normal cell growth and division - can mutate into oncogenes ...

Gene Technology

... 0 This creates a band pattern that is unique to each individual 0 Called a “bio fingerprint” 0 You can create a permanent copy of results if needed to file ...

Supporting Information. Molecular diagnosis of Usher syndrome

... enriched with Illumina TruSeq Exome Enrichment kit, which inludes more than 340.000 95mer probes targeting exonic sequences of ~20.794 genes.While the sum length of these probes is 32M, the kit actually targets 62Mb of the human genome. Briefly for every 1µg of genomic DNA a human DNA library was pr ...

PPT File

... • The impact of recombination can be observed when two mutant E. coli strains are combined. • If each is unable to synthesize one of its required amino acids, neither can grow on a minimal medium. • However, if they are combined, numerous colonies will be created that started as cells that acquired ...

BACULOVIRUS MEDIATED PRODUCTION OF INFECTIOUS

... study aims to construct full-length cDNA clones of IMNV and test for their infectivity in an insect cell line using reverse genetic methodologies. To construct the full length IMNV cDNA clones, genomic RNA of the virus was extracted from IMNV-infected shrimp and converted to cDNA before they were am ...

14–3 Human Molecular Genetics

... In 1990, scientists began the Human Genome Project. One goal was to identify and map the locations of all the genes in human DNA. Second goal was to determine the sequence of the 3 billion base pairs that ...

Bst polymerase for whole genome amplification

... amplified by Bst, REPLI-g and Templiphi to unamplified DNA) of individual gene detected by GeoChip for the community sample. Bst: amplified with Bst, Bst_S: amplified with Bst and sonicated before labeling, REPLI-g: amplified with REPLI-g, REPLI-g_S: amplified with REPLI-g and sonicated before label ...

S. cerevisiae Positive Control Primer Set ACT1

... Background: The S. cerevisiae Positive Control Primer Set ACT1 amplifies a 121 base pair fragment from the coding region of the S. cerevesiae ACT1 gene. It can be used as a control for RNA pol II phospho-Ser 2. Contents: This control primer set contains both forward and reverse primers in 400 µl of ...

What is SYNTHETIC BIOLOGY

... Synthetic biologists categorise parts into elements, devices and modules depending on their complexity. An element is the smallest and simplest part, and generally does not do anything on its own. Genes, promoters and riboswitches are examples of biological elements. Devices are a collection of elem ...

Andy Moeller – bacterial conjugation

... several generations. When he treated this culture with rifampicin and streptomycin, Marrs found that a large number of colony forming units had developed resistances, demonstrating that cell to cell contact is not needed for genetic recombination to occur in Rhodopseudomonas capsulata. Marrs then re ...

bacterial genetics

... DNA Replication-occurs at the replication fork • 5’ to 3 ‘ • DNA helicase-unzips + parental DNA strand that is used as a template – Leading stand (5’ to 3’-continuous) *DNA polymerase-joins growing DNA strand after nucleotides are aligned (complimentary) – Lagging strand (5’ to 3’-not continuous) * ...

Biotechnology

... • Restriction enzyme – enzyme that cuts DNA molecules at specific nucleotide sequences • DNA fingerprint – unique sequence of DNA base pairs that can be used to identify a person at the molecular level • Clone – genetically identical copy of a single gene or an entire organism ...

Chapter 13-DNA Technology

... (C) Polymerase Chain Reaction (PCR allows you to make a DNA fingerprint ) • PCR used to turn a SMALL sample into THOUSANDS of copies of DNA (i.e., the MORE DNA available, the BETTER the fingerprint). • In order to RUN PCR, you must have a SUPPLY of… (1) Original DNA sample (trace amount) (2) DNA P ...

kazu

... Plant J. 17:63-71 ...

Identification and Localization of Carbon Concentrating

... Kebeish, Rashad, et al. "Chloroplastic photorespiratory bypass increases photosynthesis and biomass production in Arabidopsis thaliana." Nature biotechnology 25.5 (2007): 593-599. Maurino, Veronica G., and Christoph Peterhansel. "Photorespiration: current status and approaches for metabolic engineer ...

POSTDOCTORAL POSITIONS, Bacterial Pathogenesis

... and identification of transport systems for uptake of nutrients essential for Chlamydia growth. Projects on the molecular pathogenesis of Shigella involve mechanisms of anti-apoptosis, metabolic requirements for intracellular growth, and identification of anti-virulence genes and their application t ...

Plant Genetic Engineering

... and animals against viruses made of RNA, a chemical relative of DNA. When a RNA virus takes over a host cell, it needs to copy itself and the copying process creates double strands of RNA. The RNAi defense mechanism recognizes these double-stranded RNAs as foreign and degrades them plus any single-s ...

Synthetic Biology: Gene Transformation and Protein Purification

... Vector • The vector is the method used for inserting genes into a cell during transformation. – (Example: Viruses are vectors) ...

Institute of Biotechnology and Antibiotics

... University). The project is to share experiences in utilisation of logical operations with DNA. Project participants: institutes and universities from Austria, France, Spain, the Netherlands, Moldova, Rumania, Great Britain and Italy. ...

An Essay on e

... the change in the population X is proportional to the level of the population. It follows that if there were more bacteria around, the change ¢X would be proportionally greater. Now let the bacteria be divisible. That is a “half bacterium” can also clone itself in one period and in half a period it ...

Document

... 09-11-2007, Journal Club ...

Molecular Genetics

... exchange of DNA through pilus (genome or plasmid) Transduction – virus introduces new DNA to bacterial genome (virus picked up DNA from another bacteria) Transformation – bacteria absorb DNA from surroundings and incorporate into genome ...

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Mycoplasma laboratorium

Mycoplasma laboratorium is a planned partially synthetic species of bacterium derived from the genome of Mycoplasma genitalium. This effort in synthetic biology is being undertaken at the J. Craig Venter Institute by a team of approximately 20 scientists headed by Nobel laureate Hamilton Smith, and including DNA researcher Craig Venter and microbiologist Clyde A. Hutchison III. Mycoplasma genitalium was chosen as it was the species with the smallest number of genes known at that time.The J. Craig Venter Institute filed patents for the Mycoplasma laboratorium genome (the ""minimal bacterial genome"") in the U.S. and internationally in 2006. This extension of the domain of biological patents is being challenged by the watchdog organization Action Group on Erosion, Technology and Concentration.On May 21, 2010, Science reported that the Venter group had successfully synthesized the genome of the bacterium Mycoplasma mycoides from a computer record, and transplanted the synthesized genome into the existing cell of a Mycoplasma capricolum bacterium that had had its DNA removed. The ""synthetic"" bacterium was viable, i.e. capable of replicating billions of times. (The team had originally planned to use the M. genitalium bacterium they had previously been working with, but switched to M. mycoides because the latter bacterium grows much faster, which translated into quicker experiments.) Scientists who were not involved in the study caution that it is not a truly synthetic life form because its genome was put into an existing cell. The Vatican has not condemned the discovery, but claims it is not a new life. It is estimated that the synthetic genome cost US$40 million to make and took 20 people more than a decade of work. Despite the controversy, Venter has attracted over $110 million in investments so far for Synthetic Genomics, with a future deal with Exxon Mobil of $300 million in research to design algae for diesel fuel.

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Mycoplasma laboratorium