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2011诺贝尔科学奖项得主预测 (Thomson Reuters)

2011诺贝尔科学奖项得主预测 (Thomson Reuters)# Biology - 生物学

k*u2011-09-25 07:09

1 楼

【小觅闲侃】
最近跟Rui做实验上瘾了，晚上一没事我们俩就猫在她家研究各种吃。。。昨天还特意
跟别人借了两个有耳朵的Pizza盘回来研究做凉皮。。。结果失败了。。。对了，顺便
问一下，有没有凉皮达人能指点一下，为什么我们的凉皮烫熟了以后总是有很多小裂痕
？洗出来的面水已经过滤了很多次，按理说应该没有杂质的说。求解~
回正题。话说洗出来的面水要沉淀一晚，所以昨晚我们先洗好面水沉淀的时间就空下来
了。看到君之的博客更新了一篇老婆饼，就开始义无反顾的山寨！刚烤出来的时候外皮
是酥酥脆脆的，有点像我以前做过的苏式月饼的口感。放了一晚上今天拿出来吃，外皮
就又软又有层次了，超级像国内的糕点店里卖的老婆饼了！太惊艳了！哈哈哈。初次山
寨的缺点就是没有领悟表皮要划两刀的真谛，轻轻划了两道以为就是为了装饰，结果烤
的时候有好几个内馅都爆浆！哈哈哈好搞笑~~~
【小觅近庖厨】
这次偷懒，就直接用的君之的方子，直接贴过来了。四个不同之处就是：方子里水皮的
100g面粉，我改成了120g左右，不影响最后效果；糯米馅的水增多了一些，稍微稀了一
点，建议大家糯米馅严格按君之方子中的来；我用的生芝麻，所以事先干炒了一下，把
芝麻炒香；Rui不吃猪油，所以我改成了黄油，一样很香！
以下是君之的原方子：
配料：
水油皮：中筋面粉100克，细砂糖15克，水45克，全蛋液2小勺(10ML)，猪油10克
油酥：中筋面粉80克，猪油50克
糯米馅：糯米粉70克，细砂糖70克，水110克，炒熟的白芝麻30克，猪油35克
表面装饰：全蛋液适量，白芝麻适量
烘焙：烤箱中层，上下火200度，15分钟
制作过程：
1、首先制作糯米馅。水、细砂糖、猪油一起倒入锅里。
2、大火煮开至沸腾，然后转小火。
3、立刻倒入全部的糯米粉，快速搅匀，使糯米粉和水完全混合，成为粘稠的馅状。关
火。
4、加入熟白芝麻，搅拌均匀。
5、将炒好的馅平铺在盘子里，放入冰箱冷藏1个小时，冷藏到馅不粘手了就可以了。
6、将冷藏后的馅平均分成16份备用。
7、接着制作水油皮，把面粉、糖、全蛋液、猪油、水全部混合均匀，揉成光滑柔软的
面团（根据面粉吸水性不同，水的用量需酌情调整，一定要揉成柔软的面团，不能太干
）。
8、将面团分成16份，分别揉成圆球，静止松弛半个小时(为防止面团表面变干，静置时
需要盖上保鲜膜或湿布)。
9、然后制作油酥。把面粉和猪油混合并不断揉搓，直到成团。将揉好的油酥面团同样
分成16等份。
10、取一块静置好的水油皮面团，按扁成为圆形。
11、将油酥面团放在水油皮面团中心。
12、包起来，收口朝下放置。
13、将包好的面团用擀面杖擀开成长椭圆形。
14、擀开后，从上而下卷起来。
15、卷好的面团旋转90度，再次擀开成长椭圆形（这次的长椭圆形会比第一次更长）。
16、再次从上而下卷起来。
17、如图所示，将16份面团全部卷好，并静置松弛15分钟(记得盖上湿布或保鲜膜哦)。
18、取一块静置好的面团，擀开成圆形(尽量擀成中间厚周围薄)。
19、将一块糯米馅放在面团中央，包起来。
20、包好后，收口朝下，擀成圆饼状，然后放在烤盘上。
21、在面团表面刷上一层全蛋液。
22、撒上一些白芝麻。然后用刀在面皮表面划三道口子（需划穿面皮）。再静置15分钟
后，放入预热好200度（华氏400度左右）的烤箱，烤15分钟左右，直到表面金黄即可。
追求店里卖的那种老婆饼口感的童鞋们，烤完以后千万不要性急都吃掉了，放一天以后
外皮口感才最正点！
更多其他类别的美食请点击查阅：小觅的美食日记【索引篇】（一）
http://blog.sina.com.cn/s/blog_558029ed0100osrm.html
小觅的微博：
http://t.sina.com.cn/kaymiliu

s*l2011-09-25 07:09

2 楼

出账单的时候，balance有200，还掉了，突然有一天，信用卡账户打不开说在维护，第
三天打开了，一看，发现出了账单的第二天的balance变成0了，我还的200变成了-200
，意思就是银行欠我200，这可咋办？

l*d2011-09-25 07:09

3 楼

生理学或医学
Brian J. Druker　　美国奥勒冈州波特兰市奥勒冈健康暨科学大学 (Oregon Health
Science University)医学教授、JELD-WEN血癌研究教授及奈特癌症研究所(OHSU
Knight Cancer Institute)主任、同时也是霍尔休斯医学研究所(Howard Hughes
Medical Institute)研究人员
Nicholas B. Lydon　　美国怀俄明州杰克森洞(Jackson Hole, WY)Granite ***a, LLC
创办人；美国加州圣地牙哥AnaptysBio共同创办人兼总监；及美国麻州剑桥Blueprint
Medicines共同创办人兼总监
Charles L. Sawyers　　美国纽约州纽约市Memorial Sloan-Kettering癌症中心人类肿
瘤学及病因Marie-Josee and Henry R. Kravis教授、同时也是霍尔休斯医学研究所(
Howard Hughes Medical Institute)研究人员
获奖成就：他们发展出***性慢性骨髓性白血病治疗药物imatinib 及 dasatinib
(英文原文：For their development of imatinib and dasatinib, revolutionary,
targeted treatments for chronic myeloid leukemia)
Robert S. Langer　　美国麻州剑桥麻省理工学院(Massachusetts Institute of
Technology)化工系David H. Koch Institute教授
Joseph P. Vacanti　　哈佛医学院(Harvard Medical School)John Homans外科教授；
美国麻州波士顿麻州综合医院(Massachusetts General Hospital)首席外科医师兼小儿
外科主任及组织工程暨器官构造实验室主任
获奖成就：他们在组织工程及再生医学方面的先驱研究
(英文原文：For their pioneering research in tissue engineering and
regenerative medicine)
Jacques F. A. P. Miller　　澳洲墨尔本帕克维尔墨尔本大学医学研究所(Walter and
Eliza Hall Institute of Medical Research)暨墨尔本大学(University of
Melbourne)荣誉教授
获奖成就：发现胸腺的功能并在哺乳类动物身上找到T细胞与B细胞
(英文原文：For his discovery of the function of the thymus and the
identification of T cells and B cells in mammalian species)
Robert L. Coffman　　美国加州柏克莱Dynavax Technologies副总兼科学长
Timothy R. Mosmann　　美国纽约州罗彻斯特市罗彻斯特大学(University of
Rochester)微生物学与免疫学系教授、及罗彻斯特大学医学中心疫苗生物学与免疫学
David H. Smith中心Michael and Angela Pichichero主任
获奖成就：他们发现TH1及TH2两种T淋巴细胞、以及它们在调节宿主免疫应答上的角色
化学
Allen J. Bard 　　美国德州大学奥斯丁分校(University of Texas at Austin)之化
学与生物化学学院，化学系Hackerman-Welch Regents教授兼电化学中心主任
获奖成就：扫瞄电化学显微术的发展与应用
(英文原文：For the development and application of scanning electrochemical
microscopy)
Martin Karplus　　美国麻州剑桥哈佛大学(Harvard University, Cambridge)化学暨
化学生物系Theodore William Richards化学荣誉教授、法国史特拉斯堡路易巴斯德大
学(Louis Pasteur University)科学与超分子工程研究院(ISIS)生物物理化学实验室主任
获奖成就：生物分子的分子动态先驱模拟
(英文原文：For pioneering simulations of the molecular dynamics of
biomolecules)
Jean M. J. Frechet　　美国加州柏克莱大学(University of California Berkeley,)
化学系化学及化工教授兼Henry Rapoport有机化学教授、沙乌地阿拉伯图沃阿布都拉国
王科技大学(King Abdullah University of Science and Technology)研究副校长
Donald A. Tomalia　　美国密西根州欢喜山中密西根大学(Central Michigan
University)化学系杰出教授兼研究科学家及国家树状分子与奈米科技中心(National
Dendrimer and Nanotechnology Center)主任、同时也是美国密西根州欢喜山(
Dendritic Nanotechnologies, Inc)科学长
Fritz Vogtle　　德国波昂市波昂大学(Rheinische Friedrich-Wilhelms-Universitat
Bonn)有机化学与生物化学科库尔研究院(Kekule Institute for Organic Chemistry
and Biochemistry)荣誉教授
获奖成就：树形聚合物的发明与发展
(英文原文：For the invention and development of dendritic polymers)
物理学
Alain Aspect　　法国国家研究(CNRS)院杰出科学家及法国帕拉索光学研究所(
Institut d'Optique, Palaiseau France)Charles Fabry实验室原子光学群(Atom
Optics Group)主管、同时也是法国光学研究所(Institut d’Optique)及综合理工学院
(Ecole Polytechnique)教授
John F. Clauser　　美国加州核桃溪J.F. Clauser & Associates研究物理学家
Anton Zeilinger　　维也纳大学(University of Vienna)实验物理学全职教授、奥地
利维也纳奥地利科学研究院(Austrian Academy of Sciences)量子光学及量子资讯研究
院科学主任
获奖成就：他们对Bell's inequalities的检验及在quantum entanglement方面的研究
(英文原文： For their tests of Bell’s inequalities and research on quantum
entanglement)
Sajeev John　　加拿大安大略多伦多市多伦多大学(University of Toronto)物理学系
大学物理学教授暨加拿大研究教授
Eli Yablonovitch　　美国加州柏克莱大学(University of California Berkeley)电
机与计算机科学系教授兼James and Katherine Lau工程教授
获奖成就：他们对photonic band gap materials的发现和发展
(英文原文：For their invention and development of photonic band gap
materials)
Hideo Ohno　　日本仙台东北大学(Tohoku University)电子通讯研究所奈米电子及自
旋电子学教授、及自旋电子整合系统中心主任
获奖成就：对稀磁性半导体中的铁磁性之贡献

p*22011-09-25 07:09

4 楼

切开来看看啊

b*e2011-09-25 07:09

5 楼

下个月花200不用还了

200

【在 s*******l 的大作中提到】

: 出账单的时候，balance有200，还掉了，突然有一天，信用卡账户打不开说在维护，第
: 三天打开了，一看，发现出了账单的第二天的balance变成0了，我还的200变成了-200
: ，意思就是银行欠我200，这可咋办？

l*d2011-09-25 07:09

6 楼

To be honest, I think none of them will receive nobel prize in medicine this
year.

k*u2011-09-25 07:09

7 楼

忘了。。。哈哈~~~ 里面就是糯米糕的样子~~~

【在 p********2 的大作中提到】

: 切开来看看啊

s*l2011-09-25 07:09

8 楼

那会不会有一天，银行发现了，然后一直算我账单未付报告到信用局，那就完蛋了

h*y2011-09-25 07:09

9 楼

Charles L. Sawyers有名吗？

s*32011-09-25 07:09

10 楼

哇，我最喜欢吃老婆饼了，尤其是咸的口味的。
自从做了一次苏式月饼后，就懒得再做水皮油皮分开的点心了
小觅你又勾起了我的欲望了，哈哈哈

i*g2011-09-25 07:09

11 楼

这个根据citation的预测一直就不怎么准好像发给临床的成果从来没预测到过？

LLC
Blueprint

【在 l***d 的大作中提到】

: 生理学或医学
: Brian J. Druker　　美国奥勒冈州波特兰市奥勒冈健康暨科学大学 (Oregon Health
: Science University)医学教授、JELD-WEN血癌研究教授及奈特癌症研究所(OHSU
: Knight Cancer Institute)主任、同时也是霍尔休斯医学研究所(Howard Hughes
: Medical Institute)研究人员
: Nicholas B. Lydon　　美国怀俄明州杰克森洞(Jackson Hole, WY)Granite ***a, LLC
: 创办人；美国加州圣地牙哥AnaptysBio共同创办人兼总监；及美国麻州剑桥Blueprint
: Medicines共同创办人兼总监
: Charles L. Sawyers　　美国纽约州纽约市Memorial Sloan-Kettering癌症中心人类肿
: 瘤学及病因Marie-Josee and Henry R. Kravis教授、同时也是霍尔休斯医学研究所(

c*b2011-09-25 07:09

12 楼

你怎么有这么多时间做菜啊?

【在 k******u 的大作中提到】

: 忘了。。。哈哈~~~ 里面就是糯米糕的样子~~~

A*y2011-09-25 07:09

13 楼

Druker will win one day because he conquered a disease (may not be this year
), plus the study published in NEJM this year further states the important
of his discovery.

l*y2011-09-25 07:09

14 楼

赞mm这个~
我昨天也是看了君之的博客之后做了老婆饼，不过我做的是红豆馅儿的，中国超市买的
现成的那种。在国内的时候爱去味多美买老婆饼，有糯米和红豆两种馅儿，都很好吃。
我最后划两刀的时候下手也不够狠，结果就是鼓起来了，像小馒头一样，不是扁平的。
你这个已经很不错了。
我有一个问题，君之的方子里说得很简单，把馅儿放在皮上，包起来。包是用什么样的
手法？我皮擀得不好，也不会包包子，凭着自己印象按照包包子的手法给包起来的，但
是封口的时候总是封不严，红豆馅儿又比较不成形，会露出来，我都不敢放多了。。。
还有建议你下次也试试红豆馅儿的，味道也很惊艳哈。

【在 k******u 的大作中提到】

: 【小觅闲侃】
: 最近跟Rui做实验上瘾了，晚上一没事我们俩就猫在她家研究各种吃。。。昨天还特意
: 跟别人借了两个有耳朵的Pizza盘回来研究做凉皮。。。结果失败了。。。对了，顺便
: 问一下，有没有凉皮达人能指点一下，为什么我们的凉皮烫熟了以后总是有很多小裂痕
: ？洗出来的面水已经过滤了很多次，按理说应该没有杂质的说。求解~
: 回正题。话说洗出来的面水要沉淀一晚，所以昨晚我们先洗好面水沉淀的时间就空下来
: 了。看到君之的博客更新了一篇老婆饼，就开始义无反顾的山寨！刚烤出来的时候外皮
: 是酥酥脆脆的，有点像我以前做过的苏式月饼的口感。放了一晚上今天拿出来吃，外皮
: 就又软又有层次了，超级像国内的糕点店里卖的老婆饼了！太惊艳了！哈哈哈。初次山
: 寨的缺点就是没有领悟表皮要划两刀的真谛，轻轻划了两道以为就是为了装饰，结果烤

n*b2011-09-25 07:09

15 楼

If the Nobel committee wants to award the target therapy for CML, they need
to figure out how to award both Peter Nowell and Janet Rowley and possibly
others whose contributions not only help the discovery of Gleevec but also
cancer genetics. The Lasker Foundation has grouped the two with Knudson,
which could be one followed by another one to target therapy.

year

【在 A******y 的大作中提到】

: Druker will win one day because he conquered a disease (may not be this year
: ), plus the study published in NEJM this year further states the important
: of his discovery.

s*32011-09-25 07:09

16 楼

哇，我最喜欢吃老婆饼了，尤其是咸的口味的。
自从做了一次苏式月饼后，就懒得再做水皮油皮分开的点心了
小觅你又勾起了我的欲望了，哈哈哈

l*g2011-09-25 07:09

17 楼

How about the works in the basic science in this area, like Owen Witte and
David Baltimore on the Ableson kinase, or Tony Hunter and Tony Pawson in
tyrosine phosphorylation in general, etc? If we are talking about a
discovery.

need

【在 n*********b 的大作中提到】

: If the Nobel committee wants to award the target therapy for CML, they need
: to figure out how to award both Peter Nowell and Janet Rowley and possibly
: others whose contributions not only help the discovery of Gleevec but also
: cancer genetics. The Lasker Foundation has grouped the two with Knudson,
: which could be one followed by another one to target therapy.
:
: year

d*g2011-09-25 07:09

18 楼

赞～～～～～周末试试做～～～～～

n*b2011-09-25 07:09

19 楼

Yes, the others include Owen Witte and Baltimore for their work on the
mechanistic insight of the ABL family.
Between Rowley's discovery and their work, there was a discovery of the BCR-
ABL fusion transcript that has clearly revealed the presence of the BCR-ABL
chimera protein. If Nobel goes to cancer genetics, these work may not be
credited together.
If Nobel goes to the illustration of posttranslational modification in
signal transduction or other aspects of physiology and medicine, their work
seems not as original as that of Hunter and Pawson. The pair has received
almost every award except Lasker and Nobel.

q*n2011-09-25 07:09

20 楼

我最爱吃的一种饼了~！
赞！！！

g*f2011-09-25 07:09

21 楼

我还以为发现TH1及TH2的早得奖了呢，照这个趋势看来，NKT, Th17 等等终有一天也会
得奖的。
Jacques F. A. P. Miller　　澳洲墨尔本帕克维尔墨尔本大学医学研究所(Walter and
Eliza Hall Institute of Medical Research)暨墨尔本大学(University of
Melbourne)荣誉教授
获奖成就：发现胸腺的功能并在哺乳类动物身上找到T细胞与B细胞
这个还没得奖，为什么 Peter C. Doherty反而先得了?

F*t2011-09-25 07:09

22 楼

我也很喜欢吃老婆饼
以前喜欢买可颂仿的老婆饼吃

j*r2011-09-25 07:09

23 楼

Admiring the insights and knowledgeability of Needlescrub.
Which target do you think would revolutionize the cancer target therapy?

R*s2011-09-25 07:09

24 楼

太赞了，这个一定得学学：）

w*r2011-09-25 07:09

25 楼

I like this prediction.
http://wavefunction.fieldofscience.com/2011/09/2011-nobel-prize
MEDICINE:
1. Nuclear receptors (Easy)
Pros: The importance of these proteins is unquestioned. Most predictors seem
to converge on the names of Chambon/Jensen/Evans.
2. Chaperones: (Easy)
Arthur Horwich and Franz-Ulrich Hartl just won this year's Lasker Award for
their discovery of chaperones. Their names have been high on the list for
some time now.
Pros: Clearly important. Chaperones are not only important for studying
protein folding on a basic level but in the last few years the
malfunctioning of chaperones such as heat-shock proteins has been shown to
be very relevant to diseases like cancer.
Cons: Too early? Probably not.
3. Statins (Difficult)
Akira Endo’s name does not seem to have been discussed much. Endo
discovered the first statin. Although this particular compound was not a
blockbuster drug, since then statins have revolutionized the treatment of
heart disease.
Pros: The “importance” as described in Nobel’s will is obvious since
statins have become the best-selling drugs in history. It also might be a
nice statement to award the prize to the discovery of a drug for a change.
Who knows, it might even boost the image of a much maligned pharmaceutical
industry...
Cons: The committee is not really known for awarding actual drug discovery.
Precedents like Alexander Fleming (antibiotics), James Black (beta blockers,
antiulcer drugs) and Gertrude Elion (immunosuppresants, anticancer agents)
exist but are far and few in between. On the other hand this fact might make
a prize for drug discovery overdue.
4. Genomics (Difficult)
A lot of people say that Venter should get the prize, but it’s not clear
exactly for what. Not for the human genome, which others would deserve too.
If a prize was to be given out for synthetic biology, it’s almost certainly
premature. Venter’s synthetic organisms from last year may rule the world,
but for now we humans still prevail. On the other hand, a possible prize
for genomics may rope in people like Carruthers and Hood who pioneered
methods for DNA synthesis.
5. DNA diagnostics and fingerprinting (Easy)
Now this seems to me to be very much a field from the "obvious" category.
The impact of DNA fingerprinting and Western and Southern Blots on pure and
applied science- everything from discovering new drugs to hunting down
serial killers- is at least as big as the prizeworthy PCR. I think the
committee would be doing itself a favor by honoring Jeffreys, Stark,
Burnette and Southern.
6. Stem Cells (Easy)
This seems to be yet another favorite. McCulloch and Till are often listed.
Unfortunately McCullough died earlier this year so it would be a little
unfair to award just Till. However such a thing is not unprecedented. For
example, the psychologist Daniel Kahneman shared the 2002 Economics Nobel
Prize with Vernon L. Smith. Left out was his long-time collaborator Amos
Tversky who had died in the 90s; it's pretty much regarded as a given that
Tversky would have shared the prize had he been alive.
Pros: Surely one of the most important biological discoveries of the last 50
years, promising fascinating advances in human health and disease.
Cons: Politically controversial (although we hope the committee can rise
above this). Plus, a 2007 Nobel was awarded for work on embryonic stem cells
using gene targeting strategies so there’s a recent precedent.
7. Membrane vesicle trafficking (Easy)
Rothman and Schekman
Pros: Clearly important. The last trafficking/transport prize was given out
in 1999 (Blobel) so another one is due and Rothman and Schekman seem to be
the most likely canidates. Plus, they have already won the Lasker Award
which in the past has been a good indicator of the Nobel.
8. GPCR structures (Difficult)
A commenter reminded me of this. When the latest GPCR structure (the first
one of a GPCR bound to a G protein) came out I remember remarking that
Kobilka, Stevens and Palczewski are probably up for a prize sometime.
Palczewski solved the first structure of rhodopsin and Stevens and Kobilka
have been churning out structure after important structure over the last
decade, including the first structure of an active receptor along with
several medicinally important ones including the dopamine D3 and CXCR4
receptors. These feats are definitely technical tour de forces.
Pros: GPCR's are clearly important for basic and applied science, especially
drug discovery where 30% of drugs already target these proteins.
Cons: Too early.

F*t2011-09-25 07:09

26 楼

快学吧，下个月送你ld

【在 R*****s 的大作中提到】

: 太赞了，这个一定得学学：）

n*b2011-09-25 07:09

27 楼

It would be nice that Peter Nowell, Janet Rowley and Brian Druker can share
the price this year.
These three individuals have made most significant contributions to our
understanding of the molecular basis as well as targeted treatment for CML.
Given CML as a model, it should be easy to define targets in hematopoietic
malignancies and soft tissue sarcoma. It is difficult to name targets in
solid tumors since they usually involve multiple clones and each clone
harbors multiple mutations.

【在 j********r 的大作中提到】

: Admiring the insights and knowledgeability of Needlescrub.
: Which target do you think would revolutionize the cancer target therapy?

s*i2011-09-25 07:09

28 楼

哇，美

z*k2011-09-25 07:09

29 楼

To be fair, if Nobel picks something of "targeted therapy" in cancer, APL,
but not CML, should be the first to think about. Chinese should have a slot
here, too.

share
.

【在 n*********b 的大作中提到】

: It would be nice that Peter Nowell, Janet Rowley and Brian Druker can share
: the price this year.
: These three individuals have made most significant contributions to our
: understanding of the molecular basis as well as targeted treatment for CML.
: Given CML as a model, it should be easy to define targets in hematopoietic
: malignancies and soft tissue sarcoma. It is difficult to name targets in
: solid tumors since they usually involve multiple clones and each clone
: harbors multiple mutations.

l*32011-09-25 07:09

30 楼

馋死偶算啦。。。好想念啊。。。
我要去小米那里蹭饭。。。

h*u2011-09-25 07:09

31 楼

l*32011-09-25 07:09

32 楼

我也想做老婆饼呢，，哈哈，，灵犀了一下，，，

h*u2011-09-25 07:09

33 楼

k*u2011-09-25 07:09

34 楼

我也更喜欢吃咸口的！怎么做？

【在 s*******3 的大作中提到】

: 哇，我最喜欢吃老婆饼了，尤其是咸的口味的。
: 自从做了一次苏式月饼后，就懒得再做水皮油皮分开的点心了
: 小觅你又勾起了我的欲望了，哈哈哈

N*S2011-09-25 07:09

35 楼

名单应该已经定了吧，会不会内部已经有人知道（比如说记者?)

LLC
Blueprint

【在 l***d 的大作中提到】

k*u2011-09-25 07:09

36 楼

红豆馅听起来就超好吃！我准备下次试试椰蓉糯米馅的！哈哈哈
我是用包包子的手法包的，还挺紧的。就是割口没割狠，结果好几个都爆浆！哈哈

【在 l*****y 的大作中提到】

: 赞mm这个~
: 我昨天也是看了君之的博客之后做了老婆饼，不过我做的是红豆馅儿的，中国超市买的
: 现成的那种。在国内的时候爱去味多美买老婆饼，有糯米和红豆两种馅儿，都很好吃。
: 我最后划两刀的时候下手也不够狠，结果就是鼓起来了，像小馒头一样，不是扁平的。
: 你这个已经很不错了。
: 我有一个问题，君之的方子里说得很简单，把馅儿放在皮上，包起来。包是用什么样的
: 手法？我皮擀得不好，也不会包包子，凭着自己印象按照包包子的手法给包起来的，但
: 是封口的时候总是封不严，红豆馅儿又比较不成形，会露出来，我都不敢放多了。。。
: 还有建议你下次也试试红豆馅儿的，味道也很惊艳哈。

j*r2011-09-25 07:09

37 楼

It seems very likely that Nobel prize will be give to targeted therapy in
cancer.So far, the most successful example might just be the Gleevec-Sprycel
for CML. I do hope Nobel or Lasker will be given to arsenic trioxide/
retinoic, though which might not be a typical example of molecularly-
targeted therapy.
If certain drug can achieve the similar success in one type of solid cancer
as what anti-BCR-Able does in CML, that would be remarkable.

slot

【在 z***k 的大作中提到】

: To be fair, if Nobel picks something of "targeted therapy" in cancer, APL,
: but not CML, should be the first to think about. Chinese should have a slot
: here, too.
:
: share
: .

k*u2011-09-25 07:09

38 楼

我家乡没有可颂坊，我记得在北京吃过好利来的老婆饼很好吃！哈哈哈

【在 F*******t 的大作中提到】

: 我也很喜欢吃老婆饼
: 以前喜欢买可颂仿的老婆饼吃

k*u2011-09-25 07:09

39 楼

三三换了个头像我差点没认出来。。。哈哈哈

【在 l********3 的大作中提到】

: 我也想做老婆饼呢，，哈哈，，灵犀了一下，，，

k*u2011-09-25 07:09

40 楼

来吧来吧！哈哈哈

【在 l********3 的大作中提到】

: 馋死偶算啦。。。好想念啊。。。
: 我要去小米那里蹭饭。。。