치료적 맞춤운동, 비타미네, 영성 연구소

beyond reason 치유 의학현대과학을 넘어선 치유의학의 세계 리보플라빈 반감기 1.1시간..<img src="https://t1.daumcdn.net/cfile/cafe/99BC41435F5753F223" class="txc-image" actualwidth="879" hspace="1" vspace="1" border="0" width="879" exif="{}" data-filename="스크린샷 2020-09-08 오후 6.50.08.png" style="clear:none;float:none;" id="A_99BC41435F5753F2234E99"/> <a href="https://kr.iherb.com/pr/Solgar-Vitamin-B2-Riboflavin-100-mg-100-Vegetable-Capsules/10170" target="_blank" rel="noopener noreferrer" class="tx-link"><img src="https://t1.daumcdn.net/cfile/cafe/99F7A7445F5753662D" class="txc-image" actualwidth="938" hspace="1" vspace="1" border="0" width="938" exif="{}" data-filename="스크린샷 2020-09-08 오후 6.47.47.png" style="clear:none;float:none;" id="A_99F7A7445F5753662D14F5"/></a> 리보플라빈(vitamin B2) 리보플라빈은 호흡 보조효소의 전자 제공자로 작용하며 지방, 탄수화물, 단백질의 대사에 중요보결분자단(prosthetic group)으로 flaccid adenine dinucleotide(FAD)나 flavin mono nucleotide(FMN)을갖는 효소는 flavoenzyme, 모노아민 산화효소(monoamine oxidase), 글루타치온 환원효소(glutathione reductase)임. FAD는 methyltetrahydrofolate reductase의 보조인자이며 따라서 호모시스테인 대사를 조절함.  리보플라빈은 약이나 스테로이드 대사에서 해독작용을 포함하여 여러가지 역할을 함.  <img src="https://t1.daumcdn.net/cfile/cafe/9963FA485CF31EA636" class="txc-image" actualwidth="760" hspace="1" vspace="1" border="0" width="760" exif="{}" data-filename="스크린샷 2019-06-02 오전 9.55.19.png" style="clear:none;float:none;" id="A_9963FA485CF31EA636DCF3"/> Flavoproteins are <a href="https://en.wikipedia.org/wiki/Proteins" class="mw-redirect" title="Proteins" style="color: rgb(11, 0, 128); background: none;">proteins</a> that contain a <a href="https://en.wikipedia.org/wiki/Nucleic_acid" title="Nucleic acid" style="color: rgb(11, 0, 128); background: none;">nucleic acid</a> derivative of <a href="https://en.wikipedia.org/wiki/Riboflavin" title="Riboflavin" style="color: rgb(11, 0, 128); background: none;">riboflavin</a>: the <a href="https://en.wikipedia.org/wiki/Flavin_adenine_dinucleotide" title="Flavin adenine dinucleotide" style="color: rgb(11, 0, 128); background: none;">flavin adenine dinucleotide</a> (FAD) or <a href="https://en.wikipedia.org/wiki/Flavin_mononucleotide" title="Flavin mononucleotide" style="color: rgb(11, 0, 128); background: none;">flavin mononucleotide</a> (FMN). Flavoproteins are involved in a wide array of biological processes, including removal of <a href="https://en.wikipedia.org/wiki/Radical_(chemistry)" title="Radical (chemistry)" style="color: rgb(11, 0, 128); background: none;">radicals</a> contributing to oxidative stress, <a href="https://en.wikipedia.org/wiki/Photosynthesis" title="Photosynthesis" style="color: rgb(11, 0, 128); background: none;">photosynthesis</a>, and <a href="https://en.wikipedia.org/wiki/DNA_repair" title="DNA repair" style="color: rgb(11, 0, 128); background: none;">DNA repair</a>. The flavoproteins are some of the most-studied families of enzymes. <a href="https://en.wikipedia.org/wiki/Flavoproteins" class="mw-redirect" title="Flavoproteins" style="color: rgb(11, 0, 128); background: none;">Flavoproteins</a> have either FMN or FAD as a prosthetic group or as a <a href="https://en.wikipedia.org/wiki/Cofactor_(biochemistry)" title="Cofactor (biochemistry)" style="color: rgb(11, 0, 128); background: none;">cofactor</a>. The flavin is generally tightly bound (as in <a href="https://en.wikipedia.org/wiki/Adrenodoxin_reductase" title="Adrenodoxin reductase" style="color: rgb(11, 0, 128); background: none;">adrenodoxin reductase</a>, wherein the FAD is buried deeply).<a href="https://en.wikipedia.org/wiki/Flavoprotein#cite_note-2017-Hanukoglu-JME-1" style="color: rgb(11, 0, 128); background: none;">[1]</a> About 5-10% of flavoproteins have a covalently linked FAD.<a href="https://en.wikipedia.org/wiki/Flavoprotein#cite_note-2" style="color: rgb(11, 0, 128); background: none;">[2]</a> Based on the available structural data, FAD-binding sites can be divided into more than 200 different types.<a href="https://en.wikipedia.org/wiki/Flavoprotein#cite_note-3" style="color: rgb(11, 0, 128); background: none;">[3]</a> 90 flavoproteins are encoded in the human genome; about 84% require FAD, and around 16% require FMN, whereas 5 proteins require both.<a href="https://en.wikipedia.org/wiki/Flavoprotein#cite_note-:0-4" style="color: rgb(11, 0, 128); background: none;">[4]</a> Flavoproteins are mainly located in the <a href="https://en.wikipedia.org/wiki/Mitochondria" class="mw-redirect" title="Mitochondria" style="color: rgb(11, 0, 128); background: none;">mitochondria</a>.<a href="https://en.wikipedia.org/wiki/Flavoprotein#cite_note-:0-4" style="color: rgb(11, 0, 128); background: none;">[4]</a> Of all flavoproteins, 90% perform redox reactions and the other 10% are <a href="https://en.wikipedia.org/wiki/Transferases" class="mw-redirect" title="Transferases" style="color: rgb(11, 0, 128); background: none;">transferases</a>(전이효소), <a href="https://en.wikipedia.org/wiki/Lyases" class="mw-redirect" title="Lyases" style="color: rgb(11, 0, 128); background: none;">lyases</a>(decarboxylase), <a href="https://en.wikipedia.org/wiki/Isomerases" class="mw-redirect" title="Isomerases" style="color: rgb(11, 0, 128); background: none;">isomerases</a>, <a href="https://en.wikipedia.org/wiki/Ligases" class="mw-redirect" title="Ligases" style="color: rgb(11, 0, 128); background: none;">ligases</a>(합성효소).<a href="https://en.wikipedia.org/wiki/Flavoprotein#cite_note-5" style="color: rgb(11, 0, 128); background: none;">[5]</a> Riboflavin (vitamin B2) and oxidative stress: a review  Marziyeh Ashoori and Ahmad Saedisomeolia* Department of Cellular and Molecular Nutrition, School of Nutritional Sciences and Dietetics, Tehran University of Medical Sciences, Tehran, Iran (Submitted 26 June 2013 – Final revision received 10 December 2013 – Accepted 8 January 2014 – First published online 20 March 2014) Abstract Oxidative stress is involved in the development of many chronic diseases. One of the main factors involved in oxidative stress reduction is increased antioxidant potential. Some nutrients such as vitamin C, vitamin E and carotenoids are known to act as antioxidants; however, riboflavin is one of the neglected antioxidant nutrients that may have an antioxidant action independently or as a component of the glutathione redox cycle. Herein, studies that have examined the antioxidant properties of riboflavin and its effect on oxidative stress reduction are reviewed. The results of the reviewed studies confirm‎ the antioxidant nature of riboflavin and indicate that this vitamin can protect the body against oxidative stress, especially lipid peroxidation and reperfusion oxidative injury. The mechanisms by which riboflavin protects the body against oxidative stress may be attributed to the glutathione redox cycle and also to other possible mechanisms such as the conversion of reduced riboflavin to the oxidised form.  리보플라빈 결핍은 주로 입의 점막피부와 피부병변으로 나타남. 피부점막병변과 함께 각막의 혈관신생, 빈혈, 성격변화 등의 증상을 보임.리보플라빈의 화학적, 효소적 작용은 잘 알려져 있지만 부족증상은 비특이적이며 다른 비타민 B 결핍증상과 유사함.  <img src="https://t1.daumcdn.net/cfile/cafe/99A87C3C5CF320073B" class="txc-image" actualwidth="418" hspace="1" vspace="1" border="0" width="418" exif="{}" data-filename="스크린샷 2019-06-02 오전 10.01.10.png" style="clear:none;float:none;" id="A_99A87C3C5CF320073B0221"/><img src="https://t1.daumcdn.net/cfile/cafe/991DC83C5CF3200802" class="txc-image" actualwidth="599" hspace="1" vspace="1" border="0" width="599" exif="{}" data-filename="스크린샷 2019-06-02 오전 9.58.56.png" style="clear:none;float:none;" id="A_991DC83C5CF32008024668"/><img src="https://t1.daumcdn.net/cfile/cafe/99482B3C5CF3200806" class="txc-image" actualwidth="618" hspace="1" vspace="1" border="0" width="618" exif="{}" data-filename="스크린샷 2019-06-02 오전 9.59.49.png" style="clear:none;float:none;" id="A_99482B3C5CF32008060374"/><img src="https://t1.daumcdn.net/cfile/cafe/9949C13C5CF3200906" class="txc-image" actualwidth="312" hspace="1" vspace="1" border="0" width="312" exif="{}" data-filename="스크린샷 2019-06-02 오전 10.00.35.png" style="clear:none;float:none;" id="A_9949C13C5CF32009067C89"/><img src="https://t1.daumcdn.net/cfile/cafe/991E423C5CF3200902" class="txc-image" actualwidth="429" hspace="1" vspace="1" border="0" width="429" exif="{}" data-filename="스크린샷 2019-06-02 오전 10.00.45.png" style="clear:none;float:none;" id="A_991E423C5CF3200902807F"/> 리보플라빈 결핍은 거의 대부분 식이섭취 부족에서 기인함.미국에서는 우유 및 기타 낙농제품, 빵과 곡류가 리보플라빈의 가장 중요한 공급원임. 한편 살코기, 생선, 달걀, 브로콜리, 콩과 식물도 좋은 리보플라빈의 공급원임. <img src="https://t1.daumcdn.net/cfile/cafe/996B39375CF3233201" class="txc-image" actualwidth="559" hspace="1" vspace="1" border="0" width="559" exif="{}" data-filename="스크린샷 2019-06-02 오전 10.15.00.png" style="clear:none;float:none;" id="A_996B39375CF323320143E9"/> 리보플라빈은 빛에 약하므로 우유는 빛이 차단되는 용기에 담아야 함. 리보플라빈의 검사실 진단은 적혈구나 소변내 리보플라빈 농도를 측정하면 알 수 있음. FAD를 추가했을때와 하지 않았을때 적혈구 글루타치온 환원효소의 활성도를 측정해서도 알 수 있음. 리보플라빈의 위장관 흡수정도는 한계가 있고(1회 경구투여시 최대흡수는 20mg)리보플라빈의 중독은 보고되지 않음.  <img src="https://t1.daumcdn.net/cfile/cafe/992949465CF322C404" class="txc-image" actualwidth="1024" hspace="1" vspace="1" border="0" width="1024" exif="{}" data-filename="스크린샷 2019-06-02 오전 10.12.10.png" style="clear:none;float:none;" id="A_992949465CF322C404C014"/> 앨런개비 예를들어 1946년, 56년에 발표된 보고서에 의하면 리보플라빈(비타민 B2)이 편두통을 억제한다는 연구결과가 있었는데 의료계에 의해 완전히 무시되었고 곧 사람들의 기억에서 사라졌습니다. 40년이 지난 후 그런 연구가 있었는지조차 모르는 젊은 연구원들에 의해 리보플라빈이 편두통에 효과적이라는 사실이 다시 밝혀졌습니다. 하지만 1994년, 2004년에 임상실험이 진행되었음에도 리보플라빈이 두통을 예방한다는 사실은 여전히 현대의학에서 인정되지 않고 있습니다.  <img src="https://t1.daumcdn.net/cfile/cafe/9932163C5D1FDC2619" class="txc-image" actualwidth="863" hspace="1" vspace="1" border="0" width="863" exif="{}" data-filename="스크린샷 2019-07-06 오전 8.22.39.png" style="clear:none;float:none;" id="A_9932163C5D1FDC26195973"/>