Transmitted-light microscope and method for transmitted-light microscopy

The invention claimed is: 1. A transmitted-light microscope for imaging sample vessels, the microscope comprising: an illumination beam path for illuminating a sample vessel from above with an illumination beam bundle along an optical axis; an imaging beam path for imaging the sample vessel from below along the optical axis; a pipette access channel for introducing a reagent into the sample vessel; a block having a passage for the illumination beam bundle, and a through channel, the pipette access channel extending through the through channel, wherein the through channel and the passage lie adjacent to one another in a plane perpendicular to the optical axis, the block being selectively positionable in a first position in which the through channel is aligned to the optical axis, and a second position in which the passage is aligned to the optical axis; a guide device for the block defining a path between the first position and the second position, wherein the block is shiftable along the path in a single movement; and a drive mechanism for driving movement of the block between the first position and the second position. 2. The transmitted-light microscope of claim 1 , wherein the single movement is a rotational movement. 3. The transmitted-light microscope of claim 1 , wherein the single movement is a linear movement along an axis. 4. The transmitted-light microscope of claim 3 , wherein the axis is perpendicular to the optical axis. 5. The transmitted-light microscope of claim 1 , wherein the through channel has an annular collar which functions as a stop for a tip of the pipette. 6. The transmitted-light microscope of claim 5 , wherein the stop can be moved along the optical axis. 7. The transmitted-light microscope of claim 1 , wherein a transparent cover is provided over the sample vessel, which cover has a hole on the optical axis, through which hole the reagent is introduced. 8. A method for transmitted-light microscopy of vessels, comprising: illuminating a sample vessel from above along an optical axis with an illumination beam bundle; imaging the sample vessel from below along the optical axis; introducing a reagent into the sample vessel via a pipette access channel in a through channel in a selectively positionable block, wherein the block further has a passage for the illumination beam bundle adjacent to the through channel in a plane perpendicular to the optical axis; and positioning the block in a single movement between a first position in which the through channel is aligned with the optical axis, and a second position in which the passage is aligned with the optical axis. 9. The method according to claim 8 , wherein a distance between a bottom end of the tip of a pipette in the pipette access channel, and a bottom, an edge or a liquid level of the sample vessel is ascertained from information about the tip of the pipette used, and the stop is set such that the bottom end of the tip of the pipette is in a predetermined position relative to the liquid level.