Af micro nikkor 60 mm 1 2.8 d lens

Manufactured by Nikon

Sourced in United States

The AF Micro Nikkor 60mm f/2.8D is a mid-range macro lens designed for Nikon DSLR cameras. It offers a 1:1 maximum reproduction ratio, allowing for close-up photography. The lens features an autofocus motor and a minimum focusing distance of 0.219m.

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Lab products found in correlation

D7000, by Nikon (3 mentions) Mz16f, by Leica (3 mentions) Af s nikkor 18 70 mm dx lens, by Nikon (3 mentions) Tungsten lamps, by Philips (2 mentions)

Close spelling variants of this product

AF Micro-NIKKOR 60 mm lens Micro Nikkor 60-mm lens 60 mm lens

3 protocols using af micro nikkor 60 mm 1 2.8 d lens

Photographic Capture of Plant Tissues

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Photographs of the plants and their tissues were recorded using a Nikon D7000 digital camera with an AF Micro Nikkor 60 mm 1:2.8 D lens or AF-S Nikkor 18–70 mm DX lens (Nikon Inc., Melville, NY, United States) under tungsten lamps (Philips, 120 V, 300 W). The camera was set manually for all parameters including ISO sensitivity, focus, f-stop and time. A photography gray card was used as a reference to get the correct exposure. The callus images in petri plates were observed and photographed in a Leica MZ16-F (Leica Microsystems, Inc., Buffalo Grove, IL, United States) stereo zoom light microscope equipped with a QImaging Retiga 2000 R fast cooled, digital color camera.

Thilmony R., Dasgupta K., Shao M., Harris D., Hartman J., Harden L.A., Chan R, & Thomson J.G. (2022). Tissue-specific expression of Ruby in Mexican lime (C. aurantifolia) confers anthocyanin accumulation in fruit. Frontiers in Plant Science, 13, 945738.

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Detailed Imaging Protocol for Plant Specimens

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The photographs of the plants were recorded using a Nikon D7000 digital camera with an AF Micro Nikkor 60 mm 1:2.8 D lens or AF-S Nikkor 18–70 mm DX lens (Nikon Inc., Melville, NY) under tungsten lamps (Philips, 120 V, 300 W). The camera was set manually for all parameters including ISO sensitivity, focus, f-stop and time. A photography gray card was used as a reference to get the correct exposure. Individual flowers were set lengthwise on a round frosted glass to view stem color differences. The top side of flowers were prepared to keep them upright by setting individual flowers stem-down into the barrel of a 10 mL syringe with the inside bore cut out. Flower preparations were set upon an 8×10” piece of glossy photo paper (Epson Premium Glossy Photo Paper) as a clean, white background, to view and compare the flower and stem color.
The callus images in petri plates were observed and photographed in a Leica MZ16-F (Leica Microsystems, Inc., Buffalo Grove, IL) stereo zoom light microscope equipped with a QImaging Retiga 2000 R fast cooled, digital color camera. For seed pods, the outer bracts were removed from one side before photographing.

Dasgupta K., Thilmony R., Stover E., Oliveira M.L, & Thomson J. (2017). Novel R2R3-MYB transcription factors from Prunus americana regulate differential patterns of anthocyanin accumulation in tobacco and citrus. GM Crops & Food, 8(2), 85-105.

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Digital Photography of Plant Phenotypes

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The photographs of the plants and fruits were recorded using a Nikon D7000 digital camera with an AF Micro Nikkor 60 mm 1:2.8 D lens or AF-S Nikkor 18–70 mm DX lens (Nikon Inc.) under tungsten lamps (Philips, 120 V, 300 W). The camera was set manually for all parameters including ISO sensitivity, focus, f-stop and time. A photography gray card was used as a reference to get the correct exposure. The agroinjection images and GUSPlus stained tomato fruits were observed and photographed in a Leica MZ16-F (Leica Microsystems, Inc.) stereo zoom light stereoscope equipped with a QImaging Retiga 2000 R fast cooled, digital color camera.

Dasgupta K., Hotton S., Belknap W., Syed Y., Dardick C., Thilmony R, & Thomson J.G. (2020). Isolation of novel citrus and plum fruit promoters and their functional characterization for fruit biotechnology. BMC Biotechnology, 20, 43.

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