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rectangular glass capillaries order no. 5010-100  (VitroCom Inc)

 
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    Structured Review

    VitroCom Inc rectangular glass capillaries order no. 5010-100
    The temperature gradient-forming device, including the control unit. This low-budget custom-made device consists of a stainless steel plate (A) located on a circuit board (B). Two independently working heating elements (C) located at the left and right ends of the steel plate allow heating up to 110°C. A <t>rectangular</t> glass <t>capillary</t> containing the cells to be analyzed is placed into the rectangular groove milled into the steel plate; the five small holes (the middle one is indicated by the arrow) for observation of cells are 5 mm apart each. On the back side of the circuit board, five temperature sensors are located close to the observation holes. The control unit (D) shows the actual temperatures at the left- and rightmost observation holes (here 74 and 110°C). The temperatures of the three middle observation holes (here 88°C for the middle hole indicated by the arrow) can be accessed using the black switch (E). The placement of the circuit board onto the xy-stage of any conventional upright light microscope converts it into a thermomicroscope.
    Rectangular Glass Capillaries Order No. 5010 100, supplied by VitroCom Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/rectangular+glass+capillaries+order+no%2E+5010-100/pmc04148812-85-10-16?v=VitroCom+Inc
    Average 90 stars, based on 1 article reviews
    rectangular glass capillaries order no. 5010-100 - by Bioz Stars, 2026-07
    90/100 stars

    Images

    1) Product Images from "The Temperature Gradient-Forming Device, an Accessory Unit for Normal Light Microscopes To Study the Biology of Hyperthermophilic Microorganisms"

    Article Title: The Temperature Gradient-Forming Device, an Accessory Unit for Normal Light Microscopes To Study the Biology of Hyperthermophilic Microorganisms

    Journal: Applied and Environmental Microbiology

    doi: 10.1128/AEM.00984-14

    The temperature gradient-forming device, including the control unit. This low-budget custom-made device consists of a stainless steel plate (A) located on a circuit board (B). Two independently working heating elements (C) located at the left and right ends of the steel plate allow heating up to 110°C. A rectangular glass capillary containing the cells to be analyzed is placed into the rectangular groove milled into the steel plate; the five small holes (the middle one is indicated by the arrow) for observation of cells are 5 mm apart each. On the back side of the circuit board, five temperature sensors are located close to the observation holes. The control unit (D) shows the actual temperatures at the left- and rightmost observation holes (here 74 and 110°C). The temperatures of the three middle observation holes (here 88°C for the middle hole indicated by the arrow) can be accessed using the black switch (E). The placement of the circuit board onto the xy-stage of any conventional upright light microscope converts it into a thermomicroscope.
    Figure Legend Snippet: The temperature gradient-forming device, including the control unit. This low-budget custom-made device consists of a stainless steel plate (A) located on a circuit board (B). Two independently working heating elements (C) located at the left and right ends of the steel plate allow heating up to 110°C. A rectangular glass capillary containing the cells to be analyzed is placed into the rectangular groove milled into the steel plate; the five small holes (the middle one is indicated by the arrow) for observation of cells are 5 mm apart each. On the back side of the circuit board, five temperature sensors are located close to the observation holes. The control unit (D) shows the actual temperatures at the left- and rightmost observation holes (here 74 and 110°C). The temperatures of the three middle observation holes (here 88°C for the middle hole indicated by the arrow) can be accessed using the black switch (E). The placement of the circuit board onto the xy-stage of any conventional upright light microscope converts it into a thermomicroscope.

    Techniques Used: Control, Light Microscopy



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    VitroCom Inc rectangular glass capillaries order no. 5010-100
    The temperature gradient-forming device, including the control unit. This low-budget custom-made device consists of a stainless steel plate (A) located on a circuit board (B). Two independently working heating elements (C) located at the left and right ends of the steel plate allow heating up to 110°C. A <t>rectangular</t> glass <t>capillary</t> containing the cells to be analyzed is placed into the rectangular groove milled into the steel plate; the five small holes (the middle one is indicated by the arrow) for observation of cells are 5 mm apart each. On the back side of the circuit board, five temperature sensors are located close to the observation holes. The control unit (D) shows the actual temperatures at the left- and rightmost observation holes (here 74 and 110°C). The temperatures of the three middle observation holes (here 88°C for the middle hole indicated by the arrow) can be accessed using the black switch (E). The placement of the circuit board onto the xy-stage of any conventional upright light microscope converts it into a thermomicroscope.
    Rectangular Glass Capillaries Order No. 5010 100, supplied by VitroCom Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/product/rectangular+glass+capillaries+order+no%2E+5010-100/pmc04148812-85-10-16?v=VitroCom+Inc
    Average 90 stars, based on 1 article reviews
    rectangular glass capillaries order no. 5010-100 - by Bioz Stars, 2026-07
    90/100 stars
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    The temperature gradient-forming device, including the control unit. This low-budget custom-made device consists of a stainless steel plate (A) located on a circuit board (B). Two independently working heating elements (C) located at the left and right ends of the steel plate allow heating up to 110°C. A rectangular glass capillary containing the cells to be analyzed is placed into the rectangular groove milled into the steel plate; the five small holes (the middle one is indicated by the arrow) for observation of cells are 5 mm apart each. On the back side of the circuit board, five temperature sensors are located close to the observation holes. The control unit (D) shows the actual temperatures at the left- and rightmost observation holes (here 74 and 110°C). The temperatures of the three middle observation holes (here 88°C for the middle hole indicated by the arrow) can be accessed using the black switch (E). The placement of the circuit board onto the xy-stage of any conventional upright light microscope converts it into a thermomicroscope.

    Journal: Applied and Environmental Microbiology

    Article Title: The Temperature Gradient-Forming Device, an Accessory Unit for Normal Light Microscopes To Study the Biology of Hyperthermophilic Microorganisms

    doi: 10.1128/AEM.00984-14

    Figure Lengend Snippet: The temperature gradient-forming device, including the control unit. This low-budget custom-made device consists of a stainless steel plate (A) located on a circuit board (B). Two independently working heating elements (C) located at the left and right ends of the steel plate allow heating up to 110°C. A rectangular glass capillary containing the cells to be analyzed is placed into the rectangular groove milled into the steel plate; the five small holes (the middle one is indicated by the arrow) for observation of cells are 5 mm apart each. On the back side of the circuit board, five temperature sensors are located close to the observation holes. The control unit (D) shows the actual temperatures at the left- and rightmost observation holes (here 74 and 110°C). The temperatures of the three middle observation holes (here 88°C for the middle hole indicated by the arrow) can be accessed using the black switch (E). The placement of the circuit board onto the xy-stage of any conventional upright light microscope converts it into a thermomicroscope.

    Article Snippet: Briefly, cells in the logarithmic growth phase were transferred to rectangular glass capillaries (order no. 5010-100; VitroCom, Mountain Lakes, NJ, USA), which were closed by cyanoacrylate glue (Pattex Uni-Rapide [Henkel AG, Düsseldorf, Germany] or UHU Super Power [UHU Gmbh, Bühl, Germany]), and motility was analyzed using an Olympus BX50 microscope.

    Techniques: Control, Light Microscopy