Monthly Archives: May 2014

Engineering Technician Job

Posted: May 20, 2014 at 12:44 pm

Req ID: 7661

Overview: Marathon Oil Corporation is an international energy company engaged in exploration and production; oil sands mining;and integrated gas.

Marathon Oil has a major leasehold position in the core of the Eagle Ford Shale formation in South Texas.

The Company holds acreage in the Eagle Ford, focusing on Atascosa, DeWitt, Gonzales, and Karnes counties.

Marathon Oil's Eagle Ford Subsurface team is seeking an Engineering Technician to support our Kenedy group.

The successful candidate will support the Eagle Ford subsurface team primarily with company operated assets.

The candidate will be expected to work closely with multidisciplinary teams and management in support of a variety of development activities and functions.

This position will report to a Subsurface Manager for the Eagle Ford Asset Team and will be located in Houston.

Responsibilities:

Preferred Qualifications:

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Engineering Technician Job

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Saying 'I Do' Because of Similar DNA?

Posted: at 12:44 pm

Dennis Thompson HealthDay Reporter Posted: Monday, May 19, 2014, 4:00 PM

MONDAY, May 19, 2014 (HealthDay News) -- Married couples typically have a lot in common, and researchers now say that may extend to their genes.

Spouses tend to be more genetically similar than two people chosen off the street at random, according to a new study.

It's likely this is because people who are genetically similar have more opportunities to meet and mate -- in other words, "birds of a feather flock together," said lead author Benjamin Domingue, a research associate at the University of Colorado-Boulder's Institute of Behavioral Science.

"Genes drive so many things that can structure opportunities and outcomes that determine who we mate," Domingue said. For example, genes may determine whether your potential partner shares your height or weight, or your ethnic background, religion or level of education.

Domingue and his colleagues examined the genetics of 825 white heterosexual American married couples, comparing 1.7 million potential points of genetic similarity.

The results, published May 19 in the Proceedings of the National Academy of Sciences, found that spouses share a significant number of genetic similarities, compared to any two random individuals.

This conclusion could end up changing the statistical models scientists use to understand genetic differences between human populations, because such models often assume random mating, the researchers said.

The similarity between married folks is not nearly as deep as that between siblings, though.

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Saying 'I Do' Because of Similar DNA?

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2 DNA Microarray Synthesis – Video

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2 DNA Microarray Synthesis

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2 DNA Microarray Synthesis - Video

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DDR DNA The Adam Lanza Gene – Video

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DDR DNA The Adam Lanza Gene
Someone started the rumor that UConn geneticists were going to be studying Adam Lanza #39;s DNA, presumably to determine if he had any unique DNA characteristics. The theory here was that certain...

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DDR DNA The Adam Lanza Gene - Video

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How DNA Changed the World of Forensics | Retro Report | The New York Times – Video

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How DNA Changed the World of Forensics | Retro Report | The New York Times
Before DNA testing, prosecutors relied on less sophisticated forensic techniques, including microscopic hair analysis, to put criminals behind bars. But how ...

By: The New York Times

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How DNA Changed the World of Forensics | Retro Report | The New York Times - Video

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Let’s Play Plague Inc. Evolved (part 11 – Gimme DNA! [blind]) – Video

Posted: at 12:44 pm


Let #39;s Play Plague Inc. Evolved (part 11 - Gimme DNA! [blind])
Evolve, devolve, evolve, devolve. Next part: https://www.youtube.com/watch?v=v7Ee62j0kfE Steam group: http://steamcommunity.com/groups/MC_Goc Facebook: https://www.facebook.com/metalcanyon.mc.

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Let's Play Plague Inc. Evolved (part 11 - Gimme DNA! [blind]) - Video

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Male infertility: Its about the DNA package

Posted: at 12:44 pm

Infertility is generally thought of as a womans problem. In fact, more than 3 million men across America also experience it. Today, researchers from Cold Spring Harbour Laboratory describe a key event during sperm development that is essential for male fertility. A team led by CSHL Professor Alea Mills explains how a protein controls DNA packaging to protect a mans genetic information.

The sperm is a simple delivery vehicle for a mans genetic information. The highly specialized cell is little more than a DNA bundle powered by molecular motors. As such, it is necessarily tiny: from head to tail a sperm cell is only about 50 micrometers long (1/500th of an inch), invisible to the naked eye. An egg is 30 times larger. The sperms small size has its benefits less bulk to carry while searching for an egg but it also presents significant challenges. A mans genetic material must be very tightly packaged to fit within a minuscule space.

This organizational problem is not unique to sperm. Every cell in our body contains a full human genome, which spans nearly two meters (6ft) if unfurled. To contain this massive length of DNA, cells tightly compress our genetic information. In every cell nucleus, DNA is wrapped like thread around protein spools, called histones. The thread can be easily unwound at any time to allow access to the genetic information. In sperm, the packaging problem is much more acute, as its DNA is even more condensed. The spool-like histones are replaced with tiny proteins called protamines. This repackaging process, called chromatin remodeling, is absolutely essential for male fertility.

In work published today in Nature Communications, Mills and her team identify a protein, called Chd5, as a key regulator of chromatin remodeling during sperm development. Mills and Wangzhi Li, PhD, lead author on the study, removed both copies of the Chd5 gene from male mice. They discovered that these males had severe fertility defects, ranging from low sperm counts to decreased sperm motility. The defective sperm failed to fertilize eggs when in vitro fertilisation was performed.

Mills has been interested in Chd5 since the time that her team first discovered it in 2007 as a potent tumour suppressor, one that can stop cells from becoming cancerous. We know this ability has something to do with chromatin remodeling that when defective, causes normal cells to transform into tumours, says Mills. But the most dramatic chromatin reorganization occurs when specialized cells carrying our genetic blueprint develop into sperm cells. It makes sense that Chd5 would be functioning there, too.

This, indeed, is what Mills and her team found. When Chd5 is missing, chromatin remodeling is disrupted. Histones are not efficiently replaced with protamines to repackage DNA, resulting in a more uneven, less condensed genome.

This change in DNA packaging has dramatic effects on the DNA itself. In the absence of Chd5, the double helix becomes damaged, breaking at multiple points throughout the genome. So in addition to infertility, loss of Chd5 may put future generations the rare embryos that do get fertilised with defective sperm at risk for disease, says Mills. Chd5 may protect a person from medical conditions related to DNA damage and spontaneous mutations, like cancer and autism.

The team is actively studying the role of Chd5 in human fertility. They analysed Chd5 levels using data from testes biopsies obtained from men with fertility defects. We found that men with more severe defects had the lowest levels of Chd5, says Mills. While it is only a correlation at this point, we are eager to understand fully how Chd5 affects sperm development in humans.

Source: sciencedaily.com

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Male infertility: Its about the DNA package

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After Effects Template Genome Logo Ident – Video

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After Effects Template Genome Logo Ident
Genome Logo Ident download: http://bit.ly/1nPENqn Cascading effect is always popular, its usually created with professional 3d application like Cinema 4D, 3d...

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Rearrangement Hotspots in the Human Genome – Video

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Rearrangement Hotspots in the Human Genome
Are There Fragile Regions in the Human Genome? (Part 8/9)

By: Bioinformatics Algorithms: An Active Learning Approach

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Rearrangement Hotspots in the Human Genome - Video

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Scientists use Loblolly pine from New Kent to sequence largest genetic code yet

Posted: at 12:43 pm

VGTV morning newscast - May 20, 2014

10:35 a.m. EDT, May 19, 2014

RICHMOND - The Virginia Department of Forestry announced Monday that a team of scientists from across the nation has decoded the genome of a Virginia Loblolly pine tree.

With 22 billion base pairs, this is the largest genome ever sequenced. In comparison, the human genome has 3 billion base pairs.

Led by Dr. David Neale, professor of plant sciences at the University of California-Davis, the team used tissue from a single pine seedling obtained from the Virginia Department of Foresry and broke down the trees DNA into smaller, more manageable data pieces and analyzed them with a super-computer.

The team then re-assembled the pieces, figured out which genes were present, where they are on the genome, and what they do. This new approach, developed at the University of Maryland, enabled researchers to perform such a large and complex genome sequencing.

Its a huge genome, Neale said in a press release. But the challenge isnt just collecting all the sequence data. The problem is assembling that sequence into order. The contribution of a loblolly pine tree was critically important, not only for the genome sequencing but moreso for all those who follow and will now have completely open access to data and germplasm resources.

The Loblolly pine, grown in the orchard at the Forestry Department's New Kent Forestry Center, was selected for sequencing because of its broad distribution, economic value and long history of genetic research.

Jerre Creighton, VDOFs research program coordinator, said Loblolly pine is the most common tree species in Virginia and the most commercially important tree in the United States. Its the primary source of pulpwood (used to make paper) and sawtimber (lumber). Today, Loblolly pine is being developed as a potential feedstock for the emerging biofuel industry.

The results of this research is expected to help scientists breed improved varieties of Loblolly pines, some of which will be more resistant to pathogens, such as fusiform rust the most damaging disease of southern pines.

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Scientists use Loblolly pine from New Kent to sequence largest genetic code yet

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