Thermal cycler with optimized sample holder geometry
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B01L-007/00
B01L-009/00
출원번호
US-0065874
(2006-09-05)
등록번호
US-9604219
(2017-03-28)
우선권정보
FI-20050881 (2005-09-06)
국제출원번호
PCT/FI2006/050378
(2006-09-05)
§371/§102 date
20080512
(20080512)
국제공개번호
WO2007/028860
(2007-03-15)
발명자
/ 주소
Mortillaro, Michael J.
Cohen, David A.
출원인 / 주소
Thermo Fisher Scientific Oy
대리인 / 주소
Wood Herron & Evans LLP
인용정보
피인용 횟수 :
0인용 특허 :
8
초록▼
The invention concerns a thermal cycler and a microtiter plate. The cycler comprises a sample holder having a first surface and a surface and means for automated, controlled heating and cooling of the sample holder. The first surface of the sample holder is designed to hold a plurality of samples ar
The invention concerns a thermal cycler and a microtiter plate. The cycler comprises a sample holder having a first surface and a surface and means for automated, controlled heating and cooling of the sample holder. The first surface of the sample holder is designed to hold a plurality of samples arrayed in a grid having a predefined pitch. The number of samples in one dimension is an exact match of the SBS plate standards for that sample pitch and in another dimension corresponds to a fraction of the number of samples in a second dimension of an SBS microtiter standard plate. According to the invention, the sample holder is shaped such that the area of the second surface is larger than the area of the first surface. By means of the invention, the thermal ramping speeds of the cycler can be significantly increased.
대표청구항▼
1. A thermal cycler designed to subject a plurality of samples to a temperature cycling regime, said cycler comprising: a sample holder having a first upper surface and a second lower heat transfer surface defined by a flange protruding outwardly from the sample holder, the flange having at least on
1. A thermal cycler designed to subject a plurality of samples to a temperature cycling regime, said cycler comprising: a sample holder having a first upper surface and a second lower heat transfer surface defined by a flange protruding outwardly from the sample holder, the flange having at least one cavity formed in an upper surface thereof, said first upper surface exhibiting a planar sample-receiving surface comprising a plurality of sample recesses arrayed in a grid and formed in the sample-receiving surface so as to extend below the sample receiving surface, with the sample receiving surface and the sample holder being continuous between the plurality of sample recesses, the grid of sample recesses having a pitch of 9 mm, 4.5 mm or 2.25 mm for holding a plurality of samples, the number of sample recesses in a first dimension of the sample holder being 8 for 9 mm pitch, 16 for 4.5 mm pitch and 32 for 2.25 mm pitch, and the number of sample recesses in a second dimension perpendicular to said first dimension of the sample holder corresponding to a submultiple of 12 for 9 mm pitch, 24 for 4.5 mm pitch and 48 for 2.25 mm pitch so as to define a fraction,at least one device to automatically control heating and cooling of the sample holder, said device being thermally coupled to the heat transfer surface of the sample holder, anda heat sink having an upper heat transfer surface, said heat sink heat transfer surface being thermally coupled to the device,wherein the sample holder is shaped such that the area of the heat transfer surface is larger than the area of the sample-receiving surface. 2. A thermal cycler designed to subject a plurality of samples to a temperature cycling regime, said cycler comprising a sample holder having a first upper surface and a second lower heat transfer surface defined by a flange protruding outwardly from the sample holder, the flange having at least one cavity formed in an upper surface thereof, said first upper surface exhibiting a planar sample-receiving surface comprising a plurality of sample recesses arrayed in a grid and formed in the sample-receiving surface so as to extend below the sample receiving surface, with the sample receiving surface and the sample holder being continuous between the plurality of sample recesses, the grid of sample recesses having a pitch of 9 mm, 4.5 mm or 2.25 mm for holding a plurality of samples, the number of sample recesses in a first dimension of the sample holder being 8 for 9 mm pitch, 16 for 4.5 mm pitch and 32 for 2.25 mm pitch, and the number of sample recesses in a second dimension perpendicular to said first dimension of the sample holder corresponding to a submultiple of 12 for 9 mm pitch, 24 for 4.5 mm pitch and 48 for 2.25 mm pitch so as to define a fraction,at least one device to automatically control heating and cooling of the sample holder, said device comprising a pettier module thermally coupled to the heat transfer surface of the sample holder, anda heat sink having an upper heat transfer surface, said heat sink transfer surface being thermally coupled to the peltier module,wherein the sample holder is shaped such that the area of the heat transfer surface is larger than the area of the sample-receiving surface, and further wherein the ratio of the areas of the peltier module and the heat transfer surface of the sample holder is 0.8-1.2 and the ratio of the areas of the heat transfer surface of the heat sink and the heat transfer surface of the sample holder is 0.8-1.2 for achieving focused heating or cooling of the samples. 3. A thermal cycler according to claim 2, wherein the ratio of the areas of the heat transfer surface and the sample-receiving surface of the sample holder is equal to or less than the inverse of said fraction. 4. The thermal cycler according to claim 2, wherein the ratio of the areas of the heat transfer surface and the sample-receiving surface of the sample holder is 1.2-9. 5. The thermal cycler according to claim 4, wherein said ratio of the areas of the heat transfer surface and the sample-receiving surface is 1.2-4. 6. The thermal cycler according to claim 4, wherein said ratio of the areas of the heat transfer surface and the sample-receiving surface is 1.2-2. 7. The thermal cycler according to claim 2, further comprising a connector for supplying electrical power to the cycler from a stand-alone power source. 8. The thermal cycler according to claim 7, wherein said fraction is ½, ⅓rd, ¼th or ⅙th. 9. The thermal cycler according to claim 7, further comprising a power source, wherein said power source is a battery or a host unit. 10. A method for thermal cycling a sample which comprises subjecting a sample to thermal cycling processes in a thermal cycler according to claim 2, the sample being held in a microtiter plate comprising a plurality of individual sample wells arranged in a grid having a pitch of 9 mm, 4.5 mm or 2.25 mm for holding a plurality of samples, the number of sample wells in a first dimension of the microtiter plate being 8 for 9 mm pitch, 16 for 4.5 mm pitch and 32 for 2.25 mm pitch, and the number of sample wells in a second dimension perpendicular to said first dimension of the microtiter plate corresponding to a submultiple of 12 for 9 mm pitch, 24 for 4.5 mm pitch and 48 for 2.25 mm pitch so as to define a fraction. 11. The method according to claim 10, wherein said fraction is ½, ⅓rd, ¼th or ⅙th.
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