Blocking sugar structures on viruses and tumor cells – Biophotonics.World

Prof. Skerra's current research findings are paving the way for the development of new types of binding proteins for biological sugar structures, which play a significant role in cancer as well as infectious diseases. - What you can see here: A model sugar ligand (yellow) binds to the boric acid group (green) in the pocket of a binding protein (pink).

Image source: TUM-Chair of Biological Chemistry

The laboratory directed by Arne Skerra, Professor of Biological Chemistry, has its focus on designing artificial binding proteins for therapeutic applications. The laboratory's current research findings are paving the way for the development of new types of binding proteins for biological sugar structures, which play a significant role in cancer as well as infectious diseases.

Recognizing biological sugar structures

"The recognition of specific sugar molecules, or so-called carbohydrates, is of vital importance in many biological processes," Prof. Skerra explains. Most cells carry a marker consisting of sugar chains which are attached to the outside of the cell membrane or to the membrane proteins, thus enabling the body to identify where these cells belong or whether certain cells are alien. Pathogens also have sugar structures of their own, or they can bind to these.

Proteins, which perform a wide range of functions within cells, generally have only low affinity to sugars. Thus, their molecular recognition poses a challenge. The reason: water molecules look similar to the sugar molecules, meaning that they are basically hidden in the aqueous environment of the cells. Prof. Skerra's research group therefore set out to design an artificial binding protein with a peculiar chemical composition which makes it easier to bind to biological sugar structures.

A boric acid group implemented into a protein as amino acid

Amino acids are the building blocks of proteins. As a rule, nature only uses 20 amino acids in all living organisms. "Using the possibilities opened up by synthetic biology, we have employed an additional artificial amino acid," reports researcher Carina A. Sommer.

"We have succeeded in incorporating a boric acid group, which exerts intrinsic affinity to sugar molecules, into the amino acid chain of a protein. In doing this, we have created an entirely new class of binding protein for sugar molecules," Sommer explains. This artificial sugar-binding function is superior to natural binding proteins (so-called lectins) both in strength and with regard to possible sugar specificities.

"The sugar-binding activity of boric acid and its derivatives has been known for nearly a century," says Prof. Skerra. "The chemical element boron is common on earth and has low toxicity, but so far has largely remained unexplored by organisms."

"By using X-ray crystallography, we have succeeded in unraveling the crystal structure of a model complex of this artificial protein, which allowed us to validate our biomolecular concept," explains scientist Dr. Andreas Eichinger.

The next step: towards medical application

Following approximately five years of fundamental scientific research, the findings from Prof. Skerra's laboratory can now be applied to practical medical needs. Prof. Skerra points out: "Our results should not only be used to support the future development of new carbohydrate ligands in biological chemistry, but should also pave the way for creating high-affinity agents for controlling or blocking medically-relevant sugar structures on cell surfaces."

Such a "blocking agent" could be used for conditions in which strong cell growth is evident or when pathogens are attaching themselves to cells, for example in oncology and virology. If we are successful in blocking the sugar-binding function and in slowing down the progress of a disease, this would give the patient's immune system sufficient time to mobilize the body's natural defense.

Source: Technical University of Munich

Related journal article:http://dx.doi.org/10.1002/cbic.201900405

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Blocking sugar structures on viruses and tumor cells - Biophotonics.World

This Ancient Fish Represents The Earliest Known Evolutionary Evidence of Fingers – ScienceAlert

The four-limbed animals of the world have several things in common. Spines. Bilateral symmetry. And most of us have (or, in the case of birds, had) five digits at the end of each of our four limbs.

When and how these digits emerged in animals has been something of a mystery. Palaeontologists have just found the earliest evidence of this anatomical feature, in the fin of a fish that lived 380 million years ago.

The rudimentary digit bones may not look like much, but they mark one of the most important transitions in vertebrate evolution.

"We have made a major breakthrough in the origin of how the hand was first formed for all vertebrates," palaeontologist John Long of Flinders University in Australia told ScienceAlert.

"This is the first time that we have unequivocally discovered fingers locked in a fin with fin-rays in any known fish. The articulating digits in the fin are like the finger bones found in the hands of most animals," he said in a statement.

The transition from aquatic fish to four-limbed creature (tetrapod) is one of the most important in evolutionary history, yet there are significant gaps in our knowledge. One of those gaps has been the point at which fish emerged from the depths and started foraging in shallower waters - what's considered to be an intermediate step before crawling out onto land.

In order to complete that transition, animals would have needed something pretty vital for crawling - that is, hands and feet, digits and all.

This is where a specimen of an ancient lobe-finned fish called Elpistostege watsoni enters the picture. It's a type of tetrapod-like fish belonging to an order called Elpistostegalia, on the ancestral line that leads to tetrapods; our understanding of the emergence of tetrapods largely relies on what we know about that order.

(Cloutier et al., Nature, 2020)

But the elpistostegalian fossil record has been pretty scarce, with incomplete pectoral fin skeletal anatomy. Until 2010, when an almost complete 1.57-metre (5.15-foot) fossilisedE. watsoni skeleton was found in the Escuminac Formation of Miguasha in Quebec, Canada.

Long and his colleague palaeontologist Richard Cloutier from Universite du Quebec a Rimouski in Canada have been carefully studying the fossilised bones to see what they can tell us about this mysterious animal. This paper is the first in a series, and it describes how the pair and their team used CT scanning to discover the skeletal anatomy of the fin.

"We focused on the discovery of digit bones in the fin as this was a really spectacular discovery - the first definite (not controversial) case of a fish with finger bones," Long told ScienceAlert.

"Once we had compared our fin skeleton of Elpistostege with the arm and hand skeletons of terrestrial animals, it became clear that the rows of small digit bones were - in the evolutionary sense - the same as to phalange bones in the hands of land animals (like us)."

Comparison of early tetrapod limb anatomy. (Richard Cloutier and John Long)

The bones are not exactly true fingers, since they're tucked inside the fin like a mitten, and can't move freely. The fin still retains the outer fringe covered in fin-ray bones, called lepidotrichia; the fingers wouldn't be able to move freely unlessE. watsoni lost those.

But it does confirm the animal as an intermediate between fish and tetrapods. Although some have thought digits and carpals may be unique to tetrapods, we have had hints otherwise; for instance, the tetrapod-like arrangement of humerus, radius and ulna bones was discovered in lobe-finned fishes all the way back in 1892.

"The origin of digits relates to developing the capability for the fish to support its weight in shallow water or for short trips out on land. The increased number of small bones in the fin allows more planes of flexibility to spread out its weight through the fin," Cloutier explained.

"The other features the study revealed concern the structure of the upper arm bone or humerus, which also shows features present that are shared with early amphibians. Elpistostege is not necessarily our ancestor, but it is the closest we can get to a true 'transitional fossil', an intermediate between fishes and tetrapods."

The next part of the team's work describing the fossil will focus on the head and parts of the skull, making comparisons with early tetrapods to further trace those evolutionary connections.

"It's a truly amazing specimen indeed," Long said.

The research has been published in Nature.

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This Ancient Fish Represents The Earliest Known Evolutionary Evidence of Fingers - ScienceAlert

In historic first, Ferrari to present its ‘pure blood’ SUV with speed genetics – Hindustan Times

When Enzo Ferrari launched the Italian luxury carmaker back in 1939, he could have never thought that his sports cars will have an SUV variant.As recently as 2016, former Ferrari boss Sergio Marchionne had said, You have to shoot me first." But the world has moved beyond their times. And the current global trend demands more SUVs from all kind of carmakers.

For the first time in its history, Ferrari has decided to to take the plunge most others have already taken and mastered. In 2021 Ferrari will debut its first SUV called Purosangue, that's Italian for "thoroughbred" or "pure blood", which will be a hybrid crossover with tints of Gran Turismo.

This modelwill have five doors, four seats in 2+2 configuration and front-center engine, and it is believed that it will be developed by the generational change of theFerrari GTC4Lusso,with the aesthetic features of this model, but with a higher body.

Although Louis Camilleri, the CEO of Ferrari, has emphasised that this product will not be an SUV, but a five-door model with an exterior design inspired by the coupes tells a different story.

As for the engines, there will be a hybrid version with turbo with six or eight cylinders,so you could enjoy powers close to 700 hp. That would mean the Ferrari Purosangue SUV will give Lamborghini Urus a run for its money.

The price of the Ferrari Purosangue SUV is likely to start from approximately300,000 euros ( 2.45 crore) to 500,000 euros( 4.10 crore).

Ferrari has already run into trouble over the name Purosangue. An anti-doping non-profit charity organisation Purosangue Foundation. Ferrari claims the charity 'has not made sufficient commercial use of the name to warrant exclusivity', and that the 'registration should be removed because of lack of use over the past five years'.

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In historic first, Ferrari to present its 'pure blood' SUV with speed genetics - Hindustan Times

Women advised not to have IVF during coronavirus outbreak after some mothers report giving birth prematurely – The Sun

WOMEN are being advised not to undergo IVF during the coronavirus pandemic over fears that the virus may have negative effects during pregnancy.

A report by the European Society of Human Reproduction and Embryology (ESHRE) says all couples who are considering fertility treatment "should avoid becoming pregnant at this time."

Although the statement makes clear there is "no strong evidence of any negative effects" of coronavirus on pregnancies, it says there have been some reports of women with COVID-19 giving birth prematurely.

In the report, it advises those who are already undergoing IVF to freeze their eggs or the embryos that they have created as a "precautionary measure."

It states: "We advise that all fertility patients considering or planning treatment, even if they do not meet the diagnostic criteria for Covid-19 infection, should avoid becoming pregnant at this time.

"For those patients already having treatment,we suggest considering deferred pregnancy with oocyte or embryo freezing for later embryo transfer."

The report also advises that patients who are pregnant or those undergoing treatment not travel to areas with high infection and contact with potentially infected people.

The ESHRE found cases of women who tested positive for Covid-19 who delivered healthy babies without the virus.

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It said there have been reports of premature babies - but cautioned this was based on limited data.

One case reported that a baby was born with Covid-19 but again there was no strong evidence that this was the result of transmission from the mother or "vertical transmission".

It is estimated that more than 68,000 women in the UK undertake IVF every year, many of whom are in their late thirties.

The Government has included pregnant women in it's 'at risk' group when issuing advice on coronavirus.

Mothers-to-be are strongly advised to follow social distancing measures and to avoid public transport or going out to cinemas and restaurants.

Professor Chris Whitty, England's Chief Medical Officer, said that including pregnant women in this group was a "precautionary measure" as experts are "early in our understanding of this virus".

And his deputy, Professor Jonathan Van-Tam, said it's hoped that these new measures will reduce the infection rate and protect those at higher risk.

He told the BBC: "When it comes to this coronavirus, it is a new disease, it's been with humans around the world for just a few months.

"We are being very precautionary in terms of the advice we are giving to pregnant women to increase their social distancing."

Earlier today the NHS revealed that they would send their pregnant staff to low risk hospitals in areas with few cases of the virus.

"We know that a whole range of normal infections are more serious in pregnancy and the advice we're giving is extremely precautionary."

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Women advised not to have IVF during coronavirus outbreak after some mothers report giving birth prematurely - The Sun

From the Goat’s View – newberryobserver.com

The following was written by Columnist Lisa Stone, in the point-of-view of Cappie the goat.

It has been a busy Semester let me tell you! Students have been hard at work on my new closure and Im looking forward to getting some new friends and a place I can call my own. Ive been watching all the students in the greenhouses plant veggies and flowers (best place to munch on some hidden weeds) for this springs plant sale opening mid-March! They sure are pretty.

Students are also building their own palace of a chicken coop! The program already has a number of chickens that students have hatched in class (big thank you to Alana West, Newberry 4-H agent and her Embryology project). I didnt know what to think when I heard all that peeping during class, but I soon get distracted by students going here and there. I love welcoming and watching the students come and go. They always give me a smile and a good rub on the side, maybe a Cheerio or two.

I am sad; however, that I couldnt help support our students at Laurens High School while they compete in Tool Identification and Creed Speaking for the FFA. Ive watched them study and am anxious to see how they do. Ms. Stone said Ill just have to wait since Im not allowed my own phone (for obvious reasons she clarifies).

Another big thank you to Mr. Chad Morris for speaking to Ms. Stones Agricultural Mechanization class. I learned so much about the history of electricity, gauges of wires and got a goat kick out of his electricity demonstrations.

I do have to say, I have not taken kindly to all the rain. Ms. Stone wanted me to thank Newberry Recycling for donating mulch for the garden/rice paddy. Looks to me theyre going to have to build up that whole garden to keep it from becoming a new pond.

Students are still selling Discount Travel cards for $10, much of this goes to support our FFA in travel and competition expenses and dearly appreciated. Mrs. Holly Havird wanted to welcome everyone out for our annual plant sale as well!

A bit about the author; Cappuccino or Cappie was donated by Luke Morris, a student in the agriculture program. She has become a staple of everyday activities and loves exploring classrooms and eating cheerios from students. This four month old will soon be housed at the career center for the needs of the agriculture curriculum, as well as the school

Cappuccino or Cappie

Lisa Stone teaches Agricultural Education at the Newberry County Career Center. She can be reached at lstone@newberry.k12.sc.us.

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From the Goat's View - newberryobserver.com

COVID-19 Throws A Wrench Into Surrogacy (Along With Everything Else In The World) – Above the Law

(Image via Getty)

COVID-19 is affecting every facet of our lives, and the world of surrogacy is no exception. The news is changing so fast that anything written today will likely be out of date tomorrow. However, in the effort to provide helpful information, heres the latest.

Expect Delays.We are all being told to stay home and not leave unless its an absolute necessity. So it is no surprise that we are seeing delays and postponements for clinical and other providers. The European Society of Human Reproduction and Embryology (ESHRE) issued astatementon March 14.That date was a Saturday, so you know things are really drastic.

The statement from the European entity said: As a precautionary measure and in line with the position of other scientific societies in reproductive medicine we advise that all fertility patients considering or planning treatment, even if they do not meet the diagnostic criteria for Covid-19infection, should avoid becoming pregnant at this time. For those patients already having treatment, we suggest considering deferred pregnancy with oocyte or embryo freezing for later embryo transfer.

So halt everything for now.But thats Europe.

What about in the United States? I spoke with fertility specialist Dr. Althea OShaughnessy, on Monday, March 16, as to what she is seeing in the United States and with her practice. At that time (two days ago), she explained that things were generally still full speed ahead but subject to change. The next day, March 17, her clinic announced that all noninitiated frozen embryo transfers and intrauterine inseminations were cancelled or indefinitely postponed. Shortly after that announcement, the American Society for Reproductive Medicine (ASRM), the American counterpart to ESHRE, issued new guidance with the following recommendations.

OShaughnessy explained that if a patient was actively in a cycle - meaning that her body has been subject to the medical protocol to prepare for an egg retrieval, for example, and there was a risk of hyperstimulation if she did not go through with the retrieval - then even if the patient was showing active signs of illness, the clinic may go forward with the procedure for the safety of the patient. The clinic would, of course, take all precautions for its staff. Moreover, OShaughnessy clarified that the clinic was proceeding with IVF cycles for cancer patients needing to freeze eggs or embryos prior to gonadotoxic chemotherapy.

COVID-19, so far, isnt believed to be like the Zika virus, where there was a reason to fear birth defects for pregnant women who contracted the disease. But the evidence for that good news is scant so far, and at least one country has designated pregnant women as an at risk group.

Have A Plan AZ. Or At Least Through C.

Of course, in more urgent matters, numerous intended parents are awaiting the imminent birth of their children via surrogacy. And while everyone is concerned for the health of the surrogate and the child, there is also a basic problem of logistics. Many intended parents do not live locally to their surrogates, and some are in Europe or China, making travel especially difficult.

I spoke withCarey Flamer-Powell, the director of a surrogacy matching and support program in the United States. Flamer-Powell explained that while the current situation is stressful for many, her organization has always required a three-step plan for intended parents to be responsible for their children in case they are unable to make it to the birth. For Plan A, intended parents should be doing everything they can to be sure at least one of them can make it to the birth to care for their child from the first moment. She noted that one parent she worked with from China recently had to route through Thailand, go through a 14-day quarantine, and then was allowed to proceed to the United States. He missed his childs birth by two days, but was thankful to have made it fairly close behind.

For Plan B, all intended parents must have a local caregiver ready to take care of the child. That can be as simple as having a local friend or family member or a paid caregiver. Flamer-Powell explained that Plan C was that her organization would step in and provide care. (For an example of this happening, check out this podcast episode.) She has worked with other professionals in the field to form a network of people throughout the United States, and they are ready and willing to step in and provide care for a newborn if called to do so. That is one of those heartwarming moments where it is nice to see competitors coming together during difficult times, collaborating for the greater good.

Limiting In-Person Contact May Be Especially Significant.One provision of every basic surrogacy contract addresses who is permitted to be in the delivery room. Generally, the concern is only an issue when a C-section is necessary and the anesthesiologist limits persons present in the room. It may result in a difficult choice between the surrogates spouse (or other support person) or one of the intended parents being there to see their child come into the world. Now, that choice may become standard even if the birth isnt by C-section, or, worse, a surrogate may be on her own, without anyone aside from medically necessary persons present as hospitals work on evolving protocols to minimize risk. And, if intended parents, or support persons, meet certain risk criteria, they may not be permitted in the hospital at all!

Legal Problems Ahead. In almost every state, the law presumes that a woman giving birth is the legal parent of the child. A judicial process is used to correctly name the intended parents as the legal parents of the child, and to relieve the surrogate of any presumed responsibility. As courts close, these legal presumptions are likely to become a bigger problem. Temporary fixes will need to be utilized - such as delegations of power - and birth certificates may be issued late or may need to be amended.

In the meantime, some of the routine work of surrogacy, such as the legal contracts, is charging ahead and incorporating new COVID-19 clauses. These are predictable so far; basically that everyone agrees to follow doctors recommendations to minimize risk. And I suspect these will expand to requiring parties to also follow governmental edicts and recommendation.

Of course, the situation could look very different in a week. Or tomorrow. Heres to hoping it doesnt get that much worse, and that we see improvement soon. In the meantime, take all of this seriously. Listen to what the professionals are saying. And be safe. For you and your future children.

Ellen Trachman is the Managing Attorney ofTrachman Law Center, LLC, a Denver-based law firm specializing in assisted reproductive technology law, and co-host of the podcastI Want To Put A Baby In You. You can reach her atbabies@abovethelaw.com.

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COVID-19 Throws A Wrench Into Surrogacy (Along With Everything Else In The World) - Above the Law

Keep calm and… stop? Fertility treatment in a pandemic – BioNews

16 March 2020

The spread of a novel coronavirus (SARS-CoV-2), which causes the disease COVID-19, presents UK fertility clinics and patients with a unique set of challenges. Some of this is because we simply don't know enough about the effects of the infection on fertility, fertility treatment and early pregnancy. Early data, summarised in the Royal College of Obstetricians and Gynaecologists guidance, are reassuring, but the number of reported cases is still small.

Clinics could face logistical challenges if large numbers of staff are unable to work due to quarantine requirements, or if elective work in hospitals is shut down to make space for emergencies. Should this prospect impact the advice we give patients? The UK Government, at the time of writing, has held back from the more radical social distancing measures implemented in other countries. This leaves clinics with a dilemma of whether to continue to offer fertility treatment to unaffected patients, or to go beyond current Government advice and suspend services.

Patients' anxieties are understandable and those who wish to delay their treatment should be accommodated. It makes sense for anyone who meets the criteria for self-isolation (which are also evolving as we write) to be advised not to start treatment and indeed to stop active treatment if already commenced.

Some would go further and say that all elective fertility treatment should be delayed. The European Society forHuman Reproduction and Embryology advises that all fertility patients should 'avoid becoming pregnant at this time'. A Twitter poll targeting reproductive medicine clinicians found 45.5 percent support for delaying frozen embryo replacement in patients in areas with a high COVID-19 burden.

The question then arises, for how long should treatment be delayed? It is reported that the UK will see the peak of infections three months from now, with a tail persisting into the autumn and a potential second peak after this. If we were to delay all fertility treatment, UK clinics may struggle with the capacity to cope with demand when treatments re-start. One could easily envisage a delay of six months, which may well harm the chances of conception for some patients. Hence the need for advice to be tailored to each individual patient's situation. Delaying treatment, in effect closing clinics, would have other impacts including financial strain (particularly for smaller stand-alone clinics) and loss of morale among the more vulnerable fertility patients.

Furthermore, Chinese researchers have identified that testicular Leydig cells and seminiferous tubules express the angiotensin-converting enzyme 2 (ACE2) receptor, which is used by the virus to gain entry into cells. This short discussion paper has not been peer-reviewed and there is no evidence to suggest that the virus is found in the testes, as reported in BioNews 1039. However, this paper does alert to the need for further research into whether male fertility may be affected by COVID-19, so that patients can be adequately counselled.

The fact is that this is a fast-moving situation, with facts and knowledge changing daily. This makes it hard for professional bodies to issue meaningful guidance to practitioners and patients. The American Society for Reproductive Medicine even calls its guidance 'suggestions', showing the tentative nature of such advice. As far as UK clinics are concerned, unless restriction of movement is introduced, it is reasonable to continue treatment for those who are well and wish to continue. However, centres must be prepared to terminate or complete treatment (including through cycle cancellation, oocyte or embryo freezing) and cease initiating new treatments as and when 'lock-down' commences.

Clinicians have in their toolbox measures, which can be taken proactively, to reduce the risk to patients who find themselves in a situation where treatment has to stop. A patient may develop symptoms, or fall into a risk group, for COVID-19 after having started ovarian stimulation. Patients on a g onadotropin-releasing hormone (GnRH) antagonist regime could be managed by stopping follicle-stimulating hormone (FSH) administration and continuing antagonist administration until the patient's ovarian response has settled. Data from small case studies indicate that GnRH antagonist continuation after the trigger of final oocyte maturation is effective in reducing the risk of ovarian hyperstimulation syndrome (OHSS). Where concern exists about a high ovarian reserve, consideration should be given to co-treatment with letrozole, keeping oestradiol levels low and reducing concern about the risk of OHSS.

The key is anticipation of problems, both clinical and organisational. All centres should have a contingency plan in place that describes a stepwise reduction in their activities. This allows prioritisation down to a minimal activity if needed. It is unlikely that any licensed fertility clinic can shut down completely; work goes on behind the scenes, in particular around the maintenance of storage banks. There are practical considerations for this maintaining tanks for example but also the regulatory issues around consent expiry and data management. Urgent medical issues will still arise, and it may be appropriate to maintain a fertility preservation service for cancer patients. This prioritisation must take into account national and local pandemic policies, as well as recognition of likely reduced levels of staffing due to illness and isolation. Mitigation policies may include replacing consultations with phone- or video-calls and making sure there is a good communication policy for patients who have treatment-related problems.

We must also bear in mind the anxiety that is generated by how this pandemic is playing out. In our connected world, news, including fake news, travels faster than the virus. It is hard to escape the sense of a storm looming or a tidal wave about to break. In some countries, of course, the storm is now raging and the tide has overwhelmed even well-resourced health systems.

Fittingly for the first pandemic of the social media age, there have been extensive informal discussions on these issues among clinicians across many social media platforms. US colleagues have collated a number of measures, gleaned from social media, that clinics should consider in their response to this challenge.

Things are moving apace, and we must respond in a safe and effective way, but without panic. The British Fertility Society and the Association of Reproductive Clinical Scientists are committed to providing guidance to UK clinics as the situation evolves.

Link:
Keep calm and... stop? Fertility treatment in a pandemic - BioNews

Merck Foundation launches their Programs in partnership with Namibia First Lady and Ministries of Health and Education – Africanews English

Merck Foundation (https://www.Merck-Foundation.com/) announces the First Lady of Namibia as Ambassador of Merck more than a Mother; Merck Foundation Calls for Applications in Namibia for Merck More than a Mother Media Recognition Awards 2020 for English speaking countries to break infertility stigma; Merck Foundation also Calls for Applications for Merck More Than a Mother Fashion Awards from Namibia and rest of Africa.

Merck Foundation, the philanthropic arm of Merck KGaA Germany launched their programs and conducted their first Merck Foundation Health Media Training in Windhoek, Namibia in partnership with H.E. MONICA GEINGOS, The First Lady of Namibia and the Ambassador of Merck More Than a Mother together with Ministry of Health and Ministry of Education to break the stigma around infertility and build healthcare capacity in Namibia and rest of Africa.

Talking about the Health Media Training program Dr. Rasha Kelej, CEO of Merck Foundation and President of Merck More Than a Mother explained, The Health Media Training program is a part of Merck More than a Mother community awareness Program and is organized for the first time in Namibia for local media representatives and media students to emphasize their critical role to create a culture shift and to be the voice of the voiceless in order to break the stigma around infertile women.

The First Lady of Namibia, H.E. Monica Geingos emphasized, I am very excited to be appointed as ambassador of Merck more than a Mother and to officially launch Merck Foundation programs in our country. Moreover, I am very happy to host this important training program. Media plays an important role is sensitizing our society. It can help in creating awareness about female & male infertility and in breaking the stigma around infertility.

It is important to initiate this important training program as I strongly believe that media has the capacity and ability to break the silence in our communities in a regular and effective basis. Dr. Rasha Kelej added.

The training was addressed by Fertility specialists who are Merck Foundation Alumni and stalwarts of Media.

It provided a great opportunity for the journalists to listen to childless women experience with infertility stigma and to meet the experts and also to network with each other and work as a unit to eradicate the stigma around infertility and its resulted domestic violence in Namibia and rest of Africa.

Merck Foundation together with Namibias First Lady acknowledged the graduates of Merck Foundation programs in different fields of Oncology, Fertility and Embryology, Diabetes and Hypertension. and welcomed to be Merck Foundation Alumni for Namibia.

Merck Foundation in partnership with Ministry of Health of Namibia has provided training for doctors from Namibia to be the first oncologist and fertility specialists in public sector in the country. Moreover, they provided one year on line diploma in cardiovascular preventive medicines and masters program in diabetes management for two doctors. Merck Foundation has committed to continue providing these specialty training to more doctors from different provinces in Namibia.

Merck Foundation recently announced the winners of Merck More Than a Mother Media Recognition Awards 2019. They also announced for Namibian Media, the Call for Application of Merck More Than a Mother Media Recognition Awards 2020 for English speaking countries. The aim of these awards is to emphasize the role of media in enhancing the public engagement and understanding of infertility stigma and the need to change its social perception in African communities.

The applications are invited by media professionals to showcase along the year their work to raise awareness about infertility prevention and breaking infertility stigma.

Join the conversation on our social media platforms below and let your voice be heard:Facebook:bit.ly/2MmUl3pTwitter:bit.ly/2NDqHLRYouTube:bit.ly/318obQeInstagram:bit.ly/2MtCKsuFlicker:bit.ly/2P7AICNWebsite:Merck-Foundation.com

About Merck More than a Mother Media Recognition Awards 2020:Who can apply? Journalists from print, online, radio and multimedia platforms from Namibia and rest of English-speaking countries from Africa.

Last date of submission:Entries can be submitted till 15th June 2020.

How to apply? Entries can be submitted via email tomystory@merckmorethanamother.com

Sending multiple applications will increase the chances of winning the award.

About Merck More Than a Mother campaign:Merck More Than a Mother is a strong movement that aims to empower infertile women through access to information, education and change of mind-sets. This powerful campaign supports governments in defining policies to enhance access to regulated, safe and effective fertility care. It defines interventions to break the stigma around infertile women and raises awareness about infertility prevention, management and male infertility. In partnership with African First Ladies, Ministries of Health, Information, Education & Gender, academia, policymakers, International fertility societies, media and art, the initiative also provides training for fertility specialists and embryologists to build and advance fertility care capacity in Africa and developing countries.

With Merck More Than a Mother, we have initiated a cultural shift to de-stigmatize infertility on all levels: By improving awareness, training local experts in the fields of fertility care and media, building advocacy in cooperation with African First Ladies and women leaders and by supporting childless women in starting their own small businesses. Its all about giving every woman the respect and the help she deserves to live a fulfilling life, with or without a child.

The Ambassadors of Merck More Than a Mother are:

H.E. NEO JANE MASISI, The First Lady of Botswana

H.E. FATOUMATTA BAH-BARROW, The First Lady of The Gambia

H.E. MONICA GEINGOS, The First Lady of Namibia

H.E DENISE NKURUNZIZA, The First Lady of Burundi

H.E. REBECCA AKUFO-ADDO, The First Lady of Ghana

H.E ASSATA ISSOUFOU MAHAMADO, The First Lady of Niger

H.E. BRIGITTE TOUADERA, The First Lady of Central African Republic

H.E. COND DJENE, The First Lady of Guinea Conakry

H.E. AISHA BUHARI, The First Lady of Nigeria

H.E. HINDA DEBY ITNO, The First Lady of Chad

H.E. CLAR WEAH, The First Lady of Liberia

H.E FATIMA MAADA, The First Lady of Sierra Leone

H.E. ANTOINETTE SASSOU-NGUESSO, The First Lady of Congo Brazzaville

H.E. PROFESSOR GERTRUDE MUTHARIKA, The First Lady of Malawi

H.E. ESTHER LUNGU, The First Lady of Zambia

H.E. SYLVIA BONGO ONDIMBA, The First Lady of Democratic Republic of Congo

H.E. ISAURA FERRO NYUSI, The First Lady of Mozambique

H.E. AUXILLIA MNANGAGWA, The First Lady of Zimbabwe

Merck Foundation is making history in many African countries where they never had fertility specialists or specialized fertility clinics before Merck More Than a Mother intervention, to train the first fertility specialists such as; in Sierra Leone, Liberia, The Gambia, Niger, Chad, Guinea, Ethiopia and Uganda.

Merck Foundation launched new innovative initiatives to sensitize local communities about infertility prevention, male infertility with the aim to break the stigma of infertility and empowering infertile women as part of Merck more than a Mother COMMUNITY AWARENESS CAMPAIGN, such as;

'Merck More than a Mother'Media Recognition Awards and Health Media Training

'Merck More than a Mother'Fashion Awards

'Merck More than a Mother'Film Awards

Local songs with local artists to address the cultural perception of infertility and how to change it

Children storybook, localized for each country

About Merck Foundation:The Merck Foundation (https://www.Merck-Foundation.com/), established in 2017, is the philanthropic arm of Merck KGaA Germany, aims to improve the health and wellbeing of people and advance their lives through science and technology. Our efforts are primarily focused on improving access to quality & equitable healthcare solutions in underserved communities, building healthcare and scientific research capacity and empowering people in STEM (Science, Technology, Engineering, and Mathematics) with a special focus on women and youth. All Merck Foundation press releases are distributed by e-mail at the same time they become available on the Merck Foundation Website.Please visit https://www.Merck-Foundation.com/ to read more. To know more, reach out to our social media:Merck Foundation(Merck-Foundation.com),Facebook(bit.ly/347DsTd),Twitter(bit.ly/2REHwaK),Instagram(bit.ly/2t3E0fX),YouTube(bit.ly/2E05GVg) andFlicker(bit.ly/2RJjWtH).

About Merck:Merck(https://www.Merck.com/) is a leading science and technology company in healthcare, life science and performance materials. Almost 52,000 employees work to further develop technologies that improve and enhance life from biopharmaceutical therapies to treat cancer or multiple sclerosis, cutting-edge systems for scientific research and production, to liquid crystals for smartphones and LCD televisions.

Founded in 1668, Merck is the world's oldest pharmaceutical and chemical company. The founding family remains the majority owner of the publicly listed corporate group. Merck holds the global rights to the Merck name and brand. The only exceptions are the United States and Canada, where the company operates as EMD Serono, MilliporeSigma.

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Merck Foundation launches their Programs in partnership with Namibia First Lady and Ministries of Health and Education - Africanews English

Why Brexit could jump start UK GMO, CRISPR researchonce stifled by ‘dead hand’ of EU regulation – Genetic Literacy Project

Britain is really good at biology. In physics and chemistry, or painting and music, we have often failed to match the Germans, the French or the Italians. But in the bio-sciences, nobody can equal us. Heres an astonishing list of firsts that happened on this damp island: William Harvey and the circulation of the blood. Robert Hooke and the cell. Edward Jenner and vaccines. Charles Darwin and natural selection. Alexander Fleming and antibiotics. Francis Crick and James Watson (and Rosalind Franklin and Maurice Wilkins) and the structure of DNA. Fred Sanger and DNA sequencing. Patrick Steptoe and Robert Edwards and the first test-tube baby. Alec Jeffreys and DNA fingerprinting. Ian Wilmut and Dolly the Sheep. The biggest single contribution to the sequencing of the human genome (the Wellcome Trust).

Annoyingly, the exciting new tool of genome editing is the one that got away. The best of the new tools, known as CRISPR, emerged from the work of a Spaniard, Francisco Mojica, who first spotted some odd sequences in a microbes genome that seemed to be part of a toolkit for defeating viruses. Then a few years ago French, American, Finnish, Dutch and Chinese scientists turned this insight into a device for neatly snipping out specific sequences of DNA from a genome in any species, opening up the prospect of neatly rewriting DNA to prevent disease or alter crops. Two American universities are squabbling over the patents (and Nobel prize hopes). Further improvements are coming thick and fast.

But we are well placed to catch up with superb labs straining at the leash to apply these new tools. The biggest immediate opportunity is in agriculture, and here leaving the European Union is absolutely key. There is no clearer case of a technology in which we will be held back if we do not break free from the EU approach. It would not be a race to the bottom in terms of safety and environmental standards, but the very opposite: a race to the top.

For example, if we allowed the genetically modified blight-resistant potatoes that have been developed at the Sainsbury Laboratory in Norfolk to be grown in fields here in the UK, we would be able to greatly reduce the spraying of fungicides on potato fields, which at present happens up to 15 times a year, harming biodiversity and causing lots of emissions from tractors. That would be a big improvement, not a regression, in environmental terms. But at the moment commercializing the Sainsbury Lab potato is in practice impossible because of onerous EU rules.

Other countries are already dashing ahead with the new technology. Last year a review of the patenting of CRISPR products in agriculture found that, whereas America had taken out 872 patent families and China 858, the European Union had taken out only 194. The gap is growing.

The reason is nothing to do with the quality of research in Europe. It is all about regulation. When genome editing first came along, the European Commission decided to delay for several years making up its mind about how to regulate the release of genome-edited organisms while it waited for the European Court of Justice to decide whether to treat this new technology as if it were like genetic modification (the process invented a generation ago for transferring genes between species) or a form of mutation breeding (the process invented two generations ago for randomly scrambling the genes of plants under gamma rays in the hopes of generating better varieties).

If it was like genetic modification, then it would be subject to draconian rules that amount to a de-facto ban. Nobody even tries to commercialize a GMO crop in Europe any more because you enter a maze of delay, obfuscation, uncertainty, expense and red tape from which you never emerge.

The result is that European agriculture is more dependent on chemical sprays than it would have otherwise been, as shown by research at Gottingen University: on average, GMOs have reduced the application of pesticides to crops wherever they have been grown by 37 per cent. So we have missed out on biological solutions and had to stick with chemical ones instead.

If on the other hand genome editing is like mutation breeding, then you can go ahead and plant a crop straight away here with no restrictions. This is, of course, mad, since mutation breeding is more likely (though still very unlikely) to produce an accidentally harmful result even than GMOs, but its an older technique and has been used for much of the food you eat, including organic food, and for some reason nobody at Greenpeace objects.

Brexit is a fantastic opportunity to do something no European continental competitor is allowed to

Genome editing is an even more precise and predictable technique than GMOs. It involves no transfer of foreign DNA and the incision is made at a specific location in a genome, not at random. It is clearly the safest of all these three techniques, and so said the European Courts advocate general in his advice to the court. But in July 2018 the ECJ, being a political entity, decided otherwise and told the commission what it wanted to hear, that it should treat genome-edited plants and animals as if they were GMOs.

There was fury and dismay throughout the laboratories of Europe. There would have been more in Britain if academics had not feared playing into the hands of Brexiteers while remaining was still a possibility. A Canadian biotech professor tweeted that this was a good day for Canada since it removed a competitor continent from the scene. The absurdity is illustrated by the fact that in some cases it is impossible to distinguish a genome-edited variety from a variety bred by hybridisation or lucky selection with the same trait. Stefan Jansson from Ume University in Sweden put it like this: Common sense and scientific logic says that it is impossible to have two identical plants where growth of one is, in reality, forbidden while the other can be grown with no restrictions; how would a court be able to decide if the cultivation was a crime or not?

Brexit therefore offers a fantastic opportunity to do something no European continental competitor is effectively allowed to do, and that will benefit the environment. We have great laboratories here, in Norwich, Nottingham, Rothamsted and Edinburgh among other places. But the private sector of plant biotechnology is all but extinct in Britain and will take some jump-starting.

Twenty years ago there were 480 full-time equivalent, PhD-level, private sector jobs in agricultural biotechnology in this country. Today there are just ten. That is what has happened to that whole sector in this country as a result of the misinformed and misguided green campaign against GMOs. Until politicians signal a sea change, the private sector will shun the UKs wonderful labs and the breakthroughs will be applied overseas, if at all.

As a new online tool called the Global Gene Editing Regulation Tracker has shown, America, Canada, Argentina, Brazil, Japan and much of the rest of the world are moving towards a nimbler and more rational regulatory approach: namely judging a crop not by the method used to produce it, but by the traits it possesses. If you can make a potato resistant to blight, what matters is whether the potato is safe, not whether it was made by conventional breeding, gamma-ray mutagenesis or genome editing.

[Visit GLPs global gene-editing regulation tracker and index to learn more.]

In the EU, if you made this potato by gamma-ray mutation breeding, scrambling its DNA at random in a nuclear reactor, the regulations would say: No problem. Go ahead and plant it. If you made it by the far more precise method of genome editing, in which you know exactly what you have done and have confined your activities to one tiny bit of DNA, you are plunged into a Kafkaesque labyrinth of regulatory indecision and expense. The House of Lords Science and Technology Committee, on which I sit, recommended we switch to regulation by trait, a few years back but it was not possible before Brexit.

Genome editing can bring not just environmental benefits but animal welfare benefits too. In 2017, scientists at the Roslin Institute near Edinburgh announced that they had genome-edited pigs to protect them against a virus called porcine reproductive and respiratory syndrome, PRRS. They used CRISPR to cut out a short section from the pig gene that made the protein through which the virus gained access to cell. The change therefore denied the virus entry. They did this without altering the function of the protein made by the gene, so the animal grew up to be normal in every way except that it was immune to the disease.

This means less vaccination, less medication and less suffering. What is not to like? (Incredibly, when I mentioned this case in a speech in the House of Lords, a Green Party peer objected that eradicating a disease that causes suffering in pigs might be a bad thing in case it allows a change in pig husbandry techniques. Even Marie Antoinette was never quite that callous.) But commercialising that animal in the UK is currently all but impossible until we change the rules.

Genome-editing technology could revolutionize conservation as well as agriculture. Looking far ahead into much more speculative science, the same scientists at the Roslin who made the virus-resistant pigs are now looking into how to control grey squirrels not by killing them, as we do now, but by using genome editing to spread infertility infectiously through the population, so that the population slowly declines while squirrels live happily into old age.

This technique, called gene drive, could transform the practice of conservation all around the world, especially the control of invasive alien species the single greatest cause of extinction among birds and mammals today. We could eliminate the introduced mosquitos on Hawaii whose malaria is slowly exterminating the native honeycreeper birds. We could get rid of the non-native rats and goats on the Galapagos which are destroying the habitat of tortoises and birds.

We could get rid of the signal crayfish from America that have devastated many British rivers. For those who worry that gene drive might run riot, there is a simple answer: it can and will be designed in each case to last for a certain number of generations, not forever. And it will be wholly species-specific, so it cannot affect, say, the native red squirrel.

Genome editing may one day allow the de-extinction of the great auk

Still more futuristically, genome editing may one day allow the de-extinction of the great auk and the passenger pigeon. To achieve this, we need to take four steps: to sequence the DNA of an extinct species, which we have done in the case of the great auk; to edit the genome of a closely related species inthe lab, which is not yet possible but may not be far off as genome editing techniques improve by leaps and bounds; to turn a cell into an adult animal, which is difficult, but possible through primordial germ cell transfer, again pioneered at the Roslin Institute; and to train the adults for living in the wild, which is hard work but possible.

Genome editing is also going to have implications for human medicine. Here the European Union is less of a problem, and home-grown regulation is already in good shape: cautious and sensibly applied under the Human Fertilization and Embryology Authority. Britain has already licensed the first laboratory experiments, at the Crick Institute, on the use of genome editing in human embryos, but this is for research into infertility, not for making designer babies.

There is universal agreement that germ-line gene editing to produce human beings with new traits must remain off-limits and be considered in future only for the elimination of severe disease, not for the enhancement of normal talents. This view is shared around the world: the Chinese rogue scientist He Jiankui, who claims he used CRISPR to make two babies HIV-resistant from birth, was sentenced to three years in prison last December.

In practice, fears about designer babies are somewhat exaggerated. The same issue comes up about once a decade with every new breakthrough in biotechnology. It was raised about artificial insemination in the 1970s, about in-vitro fertilization in the 1980s, about cloning in the 1990s and about gene sequencing in the 2000s. Indeed, it has been possible to choose or selectively implant sperm, eggs and embryos with particular genes for a long time now and yet demand remains stubbornly low.

Most people do not want to use IVF or sperm donation to have the babies of clever or athletic people, as they easily could, but to have their own babies: the technology has been used almost exclusively as a cure for infertility. Indeed, the more we find out about genomes, the harder it becomes to imagine anybody wanting to, let alone being able to, enhance specific traits in future children by fiddling with genes: there are just too many genes, each with only very small effects, interacting with each other in the creation of any particular behaviour or ability.

Imagine walking into a doctors clinic and being presented with a catalogue of expensive genetic changes that could be made to your future babys genes, each of which might have a tiny and uncertain effect. The truth is most people do not want to have especially clever or sporty offspring: they want children like themselves.

However, in contrast to germ-line gene editing, somatic genome editing will play a large part in medicine. It is already happening, for example in a process known as CAR-T cell therapy, in which an immune cell is genome-edited so that it will attack a specific tumour, then multiplied and injected back into the body as a form of live drug. If we encourage genome editing in Britain we will be in a position to cure some cancers, enhance agricultural yield, improve the nutrient quality of food, protect crops from pests without using chemicals, eradicate animal diseases, enhance animal welfare, encourage biodiversity and maybe bring back the red squirrel. If we do not, then China, America, Japan and Argentina will still push ahead with this technology and will follow their own priorities, leaving us as supplicants to get the technology second-hand.

Matt Ridley is a British journalist and businessman. He is the author of several books, including The Red Queen (1994), Genome (1999), The Rational Optimist (2010) and The Evolution of Everything (2015). Follow him on Twitter @mattwridley

This article originally ran at The Critic and has been republished here with permission.

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Why Brexit could jump start UK GMO, CRISPR researchonce stifled by 'dead hand' of EU regulation - Genetic Literacy Project