1. Cristalografía
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Cristalografía
Wikipedia (20130330)
“La cristalografía es la ciencia que se dedica al estudio y resolución de estructuras
cristalinas. La mayoría de los minerales adoptan formas cristalinas cuando se forman en
condiciones favorables. La cristalografía es el estudio del crecimiento, la forma y la
geometría de estos cristales.”
http://es.wikipedia.org/wiki/Cristalograf%C3%ADa
“Elementos de simetría
Las celdas fundamentales de un cristal presentan elementos de simetría, que son:
• Eje de simetría: es una línea imaginaria que pasa a través del cristal, alrededor de
la cual, al realizar éste un giro completo, repite dos o más veces el mismo aspecto.
Los ejes pueden ser: monarios, si giran el motivo una vez (360º); binarios, si lo
giran dos veces (180º); ternarios, si lo giran tres veces (120º); cuaternarios, si lo
giran cuatro veces (90º); o senarios, si giran el motivo seis veces (60º).
• Plano de simetría: es un plano imaginario que divide el cristal en dos mitades
simétricas especulares, como el reflejo en un espejo, dentro de la celda. Puede haber
múltiples planos de simetría. Se representa con la letra m.
• Centro de simetría: es un punto dentro de la celda que, al unirlo con cualquiera de
la superficie, repite al otro lado del centro y a la misma distancia un punto similar.
• Sistemas cristalinos: todas la redes cristalinas, al igual que los cristales, que son
una consecuencia de las redes, presentan elementos de simetría. Si se clasifican los
230 grupos espaciales según los elementos de simetría que poseen, se obtienen 32
clases de simetría (cada una de las cuales reúne todas las formas cristalinas que
poseen los mismos elementos de simetría) es decir, regular o cúbico, tetragonal,
hexagonal, romboédrico, rómbico, monoclínico y triclínico.
http://es.wikipedia.org/wiki/Cristalograf%C3%ADa#Elementos_de_simetr.C3.ADa
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“and was openly discussed by Franklin in lectures attended by Watson and in reports
accessible to Watson and Crick, that DNA (1) was helical, (2) was likely a double helix
with antiparallel strands, and, (3) had the phosphate backbone on the outside (thus the bases
of DNA, which are the "code" for inheritance, were on the inside of the helix). Calculations
from the photograph also provided crucial parameters for the size of the helix and its
structure, all of which were critical for the molecular modeling undertaken by Watson and
Crick.”
Rosalind Franklin Photo_51 Wikipedia (20130330)
2. http://en.wikipedia.org/wiki/Photo_51
Rosalind Franklin
Rosalind E. Franklin
http://en.wikipedia.org/wiki/File:Rosalind_Franklin.jpg
Rosalind Elsie Franklin (25 July 1920 – 16 April 1958)[1]
was a British biophysicist and
X-ray crystallographer who made critical contributions to the understanding of the fine
molecular structures of DNA, RNA, viruses, coal, and graphite.[2]
Her DNA work achieved
the most fame because DNA (deoxyribonucleic acid) plays essential roles in cell
metabolism and genetics, and the discovery of its structure helped scientists understand
how genetic information is passed from parents to children.
Franklin is best known for her work on the X-ray diffraction images of DNA which led to
the discovery of DNA double helix. Her data, according to Francis Crick, were "the data we
actually used"[3]
to formulate Crick and Watson's 1953 hypothesis regarding the structure of
DNA.[4]
Franklin's images of X-ray diffraction confirming the helical structure of DNA
were shown to Watson without her approval or knowledge. Though this image and her
accurate interpretation of the data provided valuable insight into the DNA structure,
Franklin's scientific contributions to the discovery of the double helix are often
overlooked[citation needed]
. Unpublished drafts of her papers (written just as she was arranging to
leave King's College London) show that she had independently determined the overall B-
form of the DNA helix and the location of the phosphate groups on the outside of the
structure. Moreover, Franklin personally told Crick and Watson that the backbones had to
be on the outside, which was crucial since before this both they and Linus Pauling had
independently generated non-illuminating models with the chains inside and the bases
pointing outwards.[5]
However, her work was published third, in the series of three DNA
Nature articles, led by the paper of Watson and Crick which only hinted at her contribution
to their hypothesis.[6]
Rosalind Franklin
Wikipedia (20130330)
“Rosalind Elsie Franklin (25 de julio de 1920 en Kensington, Londres – 16 de abril de
1958 en Chelsea, Londres) fue una biofísica y cristalógrafa inglesa autora de importantes
3. contribuciones a la comprensión de las estructuras del ADN, los virus, el carbón y el
grafito. A Franklin se la recuerda principalmente por la llamada Fotografía 51, la imagen
del ADN obtenida mediante difracción de rayos X, que sirvió como fundamento para la
hipótesis de la estructura doble helicoidal del ADN en la publicación del artículo de James
Watson y Francis Crick de 1953,1
y tras su publicación constituyó una prueba crítica para la
hipótesis.”
http://es.wikipedia.org/wiki/Rosalind_Franklin
Rosalind Franklin
La investigación sobre el ADN
Wikipedia (20130330)
“En 1951, regresó a Inglaterra para trabajar como investigadora asociada en el laboratorio
de John Randall en el King's College de Londres. Rosalind Franklin, una mujer de
personalidad fuerte, mantuvo aquí una relación compleja con Maurice Wilkins, quien
mostró sin su permiso sus imágenes de difracción de rayos X del ADN a James Watson y
Francis Crick. Ninguna otra inspiración fue tan fuerte como ésta para la publicación por
ellos, en 1953, de la estructura del ADN, tal como ellos mismos reconocieron.
En febrero de 1953, a la edad de 33 años, Rosalind escribió en sus notas de trabajo "la
estructura del ADN tiene dos cadenas". Para ese entonces, ella también sabía que la
molécula del ADN tiene sus grupos fosfato hacia afuera y que existe en dos formas”
http://es.wikipedia.org/wiki/Rosalind_Franklin#La_investigaci.C3.B3n_sobre_el_ADN
Photo 51
Wikipedia (20130330)
Photo 51, showing DNA structure
“Photo 51 is the nickname given to an X-ray diffraction image of DNA taken by Rosalind
Franklin in May 1952,[1][2][3]
when she was working at King's College London in Sir John
Randall's group. It was critical evidence[4]
in identifying the structure of DNA.[5]
4. James D. Watson was shown the photo by Maurice Wilkins, who had been given it by
Raymond Gosling; along with Francis Crick, he used Photo 51 to develop the first chemical
model of DNA, for which the three men jointly won the 1962 Nobel Prize in Physiology or
Medicine. As the Nobel prize is not awarded posthumously, Franklin, who had died in
1958, was not eligible for nomination.[6]
The photograph provided key information that was essential for developing a model of B-
form (hydrated) DNA.[7][8]
In particular, it could be determined from the diffraction pattern,
and was openly discussed by Franklin in lectures attended by Watson and in reports
accessible to Watson and Crick, that DNA (1) was helical, (2) was likely a double helix
with antiparallel strands, and, (3) had the phosphate backbone on the outside (thus the bases
of DNA, which are the "code" for inheritance, were on the inside of the helix). Calculations
from the photograph also provided crucial parameters for the size of the helix and its
structure, all of which were critical for the molecular modeling undertaken by Watson and
Crick.[7][9][10]
Photo 51 was, therefore, the critical data[11]
that led to the model and confirmation of the
postulated double helical structure of DNA, published during 1953 in a series of five
articles in the journal Nature.[12]
Franklin and Raymond Gosling's own publication in the
same issue of Nature was the first publication of this more clarified X-ray image of DNA”
http://en.wikipedia.org/wiki/Photo_51
Fotografía 51
Wikipedia (20130330)
“Fotografía 51 es el nombre dado a una imagen del ADN obtenida por Rosalind Franklin
mediante difracción de rayos X en 1952,1
y que fue una evidencia fundamental,2
para
identificar la estructura del ADN.3
La fotografía fue tomada por Franklin mientras trabajaba
en el King's College London, en el grupo de Sir John Randall.”
http://es.wikipedia.org/wiki/Fotograf%C3%ADa_51
Franklin R, Gosling RG (1953) "Molecular Configuration in Sodium Thymonucleate".
Nature 171: 740–741., April 25, 1953
http://www.nature.com/nature/dna50/franklingosling.pdf
Original papers - franklingosling.pdf
Photo 51, showing DNA structure
http://en.wikipedia.org/wiki/File:Photo_51_x-ray_diffraction_image.jpg
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![http://en.wikipedia.org/wiki/Photo_51
Rosalind Franklin
Rosalind E. Franklin
http://en.wikipedia.org/wiki/File:Rosalind_Franklin.jpg
Rosalind Elsie Franklin (25 July 1920 – 16 April 1958)[1]
was a British biophysicist and
X-ray crystallographer who made critical contributions to the understanding of the fine
molecular structures of DNA, RNA, viruses, coal, and graphite.[2]
Her DNA work achieved
the most fame because DNA (deoxyribonucleic acid) plays essential roles in cell
metabolism and genetics, and the discovery of its structure helped scientists understand
how genetic information is passed from parents to children.
Franklin is best known for her work on the X-ray diffraction images of DNA which led to
the discovery of DNA double helix. Her data, according to Francis Crick, were "the data we
actually used"[3]
to formulate Crick and Watson's 1953 hypothesis regarding the structure of
DNA.[4]
Franklin's images of X-ray diffraction confirming the helical structure of DNA
were shown to Watson without her approval or knowledge. Though this image and her
accurate interpretation of the data provided valuable insight into the DNA structure,
Franklin's scientific contributions to the discovery of the double helix are often
overlooked[citation needed]
. Unpublished drafts of her papers (written just as she was arranging to
leave King's College London) show that she had independently determined the overall B-
form of the DNA helix and the location of the phosphate groups on the outside of the
structure. Moreover, Franklin personally told Crick and Watson that the backbones had to
be on the outside, which was crucial since before this both they and Linus Pauling had
independently generated non-illuminating models with the chains inside and the bases
pointing outwards.[5]
However, her work was published third, in the series of three DNA
Nature articles, led by the paper of Watson and Crick which only hinted at her contribution
to their hypothesis.[6]
Rosalind Franklin
Wikipedia (20130330)
“Rosalind Elsie Franklin (25 de julio de 1920 en Kensington, Londres – 16 de abril de
1958 en Chelsea, Londres) fue una biofísica y cristalógrafa inglesa autora de importantes](data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7)