To cells that are defective in primer removal, you add fluorescent ribonucleotides when the cells are undergoing dna replication. in this case, you observe that one strand glows more than the other not only near the replication fork but also at intervals along its length. which strand glows in this way and why? the lagging strand glows in this way because it is synthesized continuously. the leading strand glows in this way because its rna primers are widely spaced. the leading strand glows in this way because it is synthesized continuously. the lagging strand glows in this way because its rna primers are closely spaced.

In the given case, the strand glows in this way, and why - the lagging strand glows in this way because its RNA primers are closely spaced.

During the DNA replication process, both the strands of DNA are replicated simultaneously in opposite direction.

One strand is replicated continuously and is known as the leading strand while the other strand is replicated discontinuously and known as the lagging strand.
The leading strand has only one primer attached to it while the lagging strand has multiple primers.
These multiple primers are closely spaced in lagging strands allow them to glow in this way.

Thus, In the given case, the strand glows in this way, and why - the lagging strand glows in this way because its RNA primers are closely spaced.

Learn more:

https://brainly.com/question/6981528